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Structure
Type
Prototype
CC Code
Space
Group
SG
Num.
ANX
Form.
Wyckoff
Symbol
Pearson
Symbol
c/a
Min
c/a
Max
AET
Pearson
Note
Description
(Bi7Pb)Pt458336PNMA c3oP1222.5
(H3O)Yb3F10(H2O)84661Fd3-mZ227 h f2 e2 dcF320
(Mn, Fe)2PO4F16930I12/c115 f8mS64 triplite
(NbS)(NbS2)54267P2122118 c8 b aoP20
(NH3)2HI36569Pm3-m f acP10
(NH3)3Ti(O2)F5201509Fm3-m j e c b acF88
(NH3)3Ti(O2)F5201509Fm3-m j e c b acF96
(NH4)8Fe2(CN)12 (H2O)330513Ia3-d h2 g c b acI600
Aenigmatite15283P1-2 i33 c baP68
Aerugite2882R3-mH166 h3 e c3 ahR27
Ag16Ca6N78395IM3-M h e c acI46Ca: 17: NAg12Ca4; Ag1: 12: Ag6Ca6; Ag2: 12: Ag8Ca4; N: octahedron: Ca6Na16Ba6N, Ag8Ca3, Na16Ba6N, Ca6Ag16NNested polyhedra units consisting of a central N atom surrounded by a Na6 octahedron, a Na8 cube and a Na12 cuboctahedron; the cubes share corners along the body diagonals.
Ag2O315999PN3-MS d bcP10Ag: octahedron: O6: O: tetrahedron: Ag4Mg3P2, SB: D5(5)
Ag2O315999PN3-MS224 d ccP10Ag: octahedron: O6: O: tetrahedron: Ag4Mg3P2, SB: D5(5)
Ag3AsS327841R3CH161 b2 ahR14 Proustite, Ag3SbS3
Ag3CsS21033C12/m112 i6mS24.5.6
Ag3SI202120Pm3-m h b acP5
Ag4K23863C12/m112 i9mS36
Ag51Gd149085P6/m175 l3 k2 j2 h e chP64
Ag8GeTe625F4-3m h6 g e c acF60
Ag8SiS61054Pna21 a15oP60
Ag9GaSe615252F4-3m i h2 e c b acF64
Ag9GaSe6(P213)2411P213 b4 a4cP64
AgAsS218101R3-H f4hR24.6.72 trechmannite, LiSbS2
AgBiSe226519P3-m1164 d4 c b ahP12
AgCrSe225626R3MH a4hR45.007.20 CuCrSe2, CuCrS2
AgCuS66580Cmc2136 a3oS121.52 Stromeyerite
AgErSe215302P212121 a4oP16.54.69
AgFeO22786P63/MMC f c ahP83.654.3 CuFeO2
AgK2As1154C222120 c b aoS16
AgPb2Cl3OHF87757Fd3-mZ227 f e2 dcF144
AgSbO387786Fd3-mZ227 f d ccF72
AgSbO387786Fd3-mZ227 f d ccF79
AgSbO387786Fd3-mZ227 f d ccF80
AgSbO387786Fd3-mZ227 f d ccF96
AgTlTe243284I4-m2 e c atI8
AgYbS227091I41md109 a4tI16
Al10Fe2Yb151140Cmcm63 g2 f2 e d coS52
Al10V58202Fd3-mZ227 g f d ccF176
Al11La357937Immm71 l2 i h d aoI28
Al11La357937Immm71 l2 j g c aoI28
Al12W58207Im3- g acI26
Al18Cr2Mg357659FD3-MS227 g f d c acF184
Al18Cr2Mg357659FD3-MS227 g f d c bcF184 Al18Mn2Mg3
Al2(SO4)339003R3-H148 f5 c2hR342.42.95 millosevichite
Al23Gd4Ni6370010C12/m112 i16 cmS66
Al2Be3Si6O1831891P6/MCC m l2 f chP580.901.15 beryl
Al2Ca3Ge252616Immm71 h g2 boI14
Al2Ca3Si3O1231082IA3-D h d c acI160Al: octahedron: O6; Ca: square antiprism: O4+4; Si: tetrahedron: O4; O: tetrahedron: AlCa2Sigarnet, grossularite, SB: H3(1)-(S1(4))Isolated SiO4 terahedra.
Al2CdS425634I4- g c b atI141.5582.207Al1, Al2, Cd: tetrahedron: S4; S: copl. triangle: Al2Cd (+6S with S-S= 3.7-4.0)CdGa2S4(alpha), Ag2HgI4(beta), thiogallate, SB: E3Close packed S layers in c stacking, Cd and Al in tetrahedral voids. AlS4 tetrahedra share corners to form a 3D-framework.
Al2Cu42518I4/MCM h atI120.5820.825Al: 15: Al11Cu4; Cu: bicapped sq. antiprism: Al8Cu2CoSn2, NaInS4, Fe2B, SB: C16=C51IGS of slabs containing infinite columns of CuAl8 square antiprisms.
Al2CuCl880107P121/c114 e5 amP22
Al2CuMg57693Cmcm63 f c2oS161.52
Al2CuMg57693Cmcm63 g c2oS161.52
Al2Gd357869P42nm102 c4 btP20
Al2Li357951R3-mH c2 ahR52.83.5
Al2MgO456116FD3-MS227 e c bcF56Al: octahedron: 6O; Mg: tetrahedron: 4O; O: tetrahedron: Al3MgMgF2eO4, ZrTi2H4, MgFe2O4, spinel, SB: H1(1)For inverse spinel: 8M(3+) on 8b, 8M(2+) + 8M(3+) on 16c; Other Wyckoff-sequence: e d a (by shift 1/2 1/2 1/2); close packed O layers in c stacking, Mg in tetrahedral, Al in octahedral voids.
Al2MgO456116FD3-MS227 e d acF56Al: octahedron: 6O; Mg: tetrahedron: 4O; O: tetrahedron: Al3MgMgF2eO4, ZrTi2H4, MgFe2O4, spinel, SB: H1(1)For inverse spinel: 8M(3+) on 8b, 8M(2+) + 8M(3+) on 16c; Other Wyckoff-sequence: e d a (by shift 1/2 1/2 1/2); close packed O layers in c stacking, Mg in tetrahedral, Al in octahedral voids.
Al2MgO4, reduced symmetry46023F4-3m e3 c acF56
Al2Mo3C42917P4132 d c acP24
Al2Mo3C42917P4132 d c bcP24
Al2Mo3C42917P4332 d c acP24
Al2Mo3C42917P4332 d c bcP24
Al2O356085R3-CH e chR102.303.20 Lu2S3, D51
Al2O356085R3-CR e chR10 Lu2S3, D51
Al2S373220P61 a5hP30 In2Se3
Al2Zr358232Fdd243b2 aoF40
Al2Zr3(tP20)58231P42/mnm136 j g f dtP20
Al3CuHo55424Immm71 j i aoI10
Al3Fe57795C12/m112 j6 i12 g dmS101
Al3Ho57912R3-MH h2 d c2 bhR205.207.00
Al3Ho57912R3-MH h2 e c2 ahR205.207.00
Al3Ni2107713P3-M1 d2 ahP51.101.38 D5(13)
Al3Ni2107713P3-M1 d2 bhP51.101.38 D5(13)
Al3Os258109I4/mmm139 e2 atI104.154.7
Al3Pu58141P63/mmc194 k h f bhP242.22.5
Al3ScC362308P63/mmc194 f2 d c ahP14
Al3Ti58189I4/MMM d b atI81.8702.650"All cuboctahedra: Al1.2: Al8Ti4; Ti: Al12"SB: D0(22)Aristotype is Cu; close packed TiAl3 layers (Ti atoms form square mesh) in c stacking.
Al3Y2Si275228C12/m112N2O2P3i3 amS14
Al3Zr107130I4/MMM e2 d ctI163.6305.142All cuboctahedra: Al1.2.3: Al8Zr4; Zr: Al12SB: D0(23)Close packed layers in c stacking. Asistotype is Cu
Al3Zr4150529P6- j h f bhP7
Al4C352287R3-MH c3 ahR76.88.3 YFeO4
Al4C352287R3-MH c3 bhR76.88.3 YFe2O4, D7(1)
Al4C352287R3-MR c3 ahR7 YFe2O4, D7(1)
Al4Cu957670P4-3m i2 g f e4cP52
Al4La57936Imm244 d5 b2 a3oI30
Al4Mo2Yb456I4/MMM h d atI140.700.90 ErTi2Ga4
Al4NiY58077Cmcm f c3 aoS24
Al4NiY58077Cmcm f c3 boS24
Al4U107243Imma74 h e2 boI2033.3
Al5Co230207P63/mmc194 k h2 d ahP28
Al6Mn57972Cmcm63 g f e coS28
Al7Sr858168P213 b4 a3cP60
Al8CaCo257534Pbam55 h5 g5 d aoP44
Al8Cr5823R3mH160 c b6 a2hR26
Al9Co257598P121/c114 e5 amP22
Al9Co2Sr57633P6/mmm191 m f c ahP12
Al9Na4Ge14100018P4-3N i e2 d c acP54 K4Al3(Ge, Al)20
AlAu457498P213 b a2cP20
AlB252282P6/MMM d ahP30.951.20Al: 18: B12Al6; B: coboctahedron: B6Al6SB: B323D-framework of fused BAl6 trigonal prisms. B atoms form planar hexagon-mesh nets. Close packed Al layers in A stacking, B occupies all trigonal prismatic voids.
AlCe57551Cmcm63 g c aoS16
AlCe57551Cmcm63 g c boS16
AlCl3(H2O)622071R3-cH167 f e bhR44
AlCr2C42918P63/MMC f c ahP84.004.90
AlCr2C42918P63/MMC f d ahP84.004.90 BaCeN2, RbScO2, Ti2CS, V2AsC, Zr2CS, Ta3MnN4, TlInS2
AlCu40332I12/m112 i4 c amS20
AlCu40332I12/m112 i4 d amS20
AlDy57734Pbcm57 d3 coP16.851.05
AlF3(H2O)366691P4/NZ85 g c2 btP260.3970.563Al: octahedron: F2(F, O)4; F: 2 nonlinear Al; (F, O): 1 Al +(1F 1O 3(F, O); O: 8(F, O)rosenbergite
AlFe2B220322Cmmm j i aoS10
AlLi3N225565Ia3- e d c acI96
AlLiSi52630F4-3M c b acF12Al: 10: Si4Li6; Li: 10: Si4Al6; Si: cube: Al4Li4LiAlSi, CuMgSb, CuMnSb, PtSbY, MgAgAs, SB: C1(b)Aristotype is CaF2-type; close packed As layers in c stacking, Mg and Ag in tetrahedral voids.
AlLiSi52630F4-3M d c acF12Al: 10: Si4Li6; Li: 10: Si4Al6; Si: cube: Al4Li4LiAlSi, CuMgSb, CuMnSb, PtSbY, MgAgAs, SB: C1(b)Aristotype is CaF2-type; close packed As layers in c stacking, Mg and Ag in tetrahedral voids.
alluaudite200238C12/c1 f8 e3 amS78
alluaudite200238C12/c1 f8 e3 amS80
alluaudite200238C12/c1 f8 e3 bmS75
alluaudite200238C12/c1 f8 e3 bmS76
alluaudite200238C12/c1 f8 e3 bmS78
alluaudite200238C12/c1 f8 e3 bmS79
alluaudite200238C12/c115 f8 e3 bmS80
alluaudite200238C12/c115 f8 e3 dmS80
AlNb3Se625374P63/mmc194 f2 bhP7
AlOOH(diaspore)77326Pbnm c3oP16.6.75 diaspore
AlOOH(diaspore)77326Pnma c3oP16.4.6 diaspore
ALP3O926759I4-3d e4 ccI208
AlPO444880P3121 c2 b ahP182.002.50 berlinite
AlTh2H443313I4/mcm NO2P4l h atI28
amblygonite20577P1-2 i8 h aaP16 LiAlPO4F
amblygonite20577P1-2 i8 h aaP17 LiAlPO4F
amblygonite20577P1-2 i8 h aaP18
Analcime 1C2930Ia3-d h g c bcI208 NaAlSi2O6H2O, S6, Zeolite-ANA
Analcime 1M40451I12/a115 f22 e2mS208.981.02
Analcime 1O34877Ibca73 f10 e d coI208.981.02
Analcime 1Q34875I41/acdS142 g4 f2 e btI208.981.02
ancylite95445Pmcn62 d c4oP30
ancylite95445Pmcn62 d c5oP30
andalusite24275Pnnm58 h g5 eoP32
andalusite24275Pnnm58 h g5 eoP36
andalusite24275Pnnm58 h g5 foP32
andalusite24275Pnnm58 h g5 foP36
anthophyllite30254Pnma62 d17 c5oP164 ortho-amphibole
apophyllite 1O34881Pnnm58 h9 g2 b aoP116
apophyllite 1Q30259P4/mnc128 i4 h g b atP116
arrojadite31752C12/c115 f40 e2 b amS340
As53794R3-MH chR22.503.10 A7
As53794R3-MR chR2 A7
As4O636144FD3-MS227 f ecF80As: octahedron: O3+3 (As-O 2.01 and 2.78); O: tetrahedron: As2+2 (+4O)Sb2O3, arsenolite, senarmontite, SB: D5(4)=D61As4O6 cage molecules with four As3O3 rings.
AsBr324589P212121 AX3a4oP16 SbBr3
atelestite70112P121/c114 e9mP40
Au3K265113Immm j h aoI10
Au3NaSi16462PA3- d c2cP40 AuNa3Ge?? isopointal zu SnI4 ??
Au3Sb4Y3957I4-3D c b acI40
Au4KSn258522I4-c2120 i e dtI28
Au6Sm2050P42/ncm138 j2 i2 e dtP56
AuBe558397F4-3M e c acF24Au: 16: (Be2)12(Be1)4; Be1: 16: (Be2)12Au4; Be2: icosahedron: (Be2)6(Be1)3Au3Be5Pd, Ni5U, SB: C15(b)Laves-type slabs in c stacking. Frank-Kaspar phase (FKP).
aubertite8225P1-2 i12 g f eaP55 AlCu(SO4)2Cl(H2O)14
AuCaGe85836Pnma NOPc9oP36.31.4
AuCd58409Pmma f eoP40.91.15
AuCd58409Pmmb f eoP41.351.75
AuCu42575P4/MMM c btP21.201.50
AuCu42575P4/MMM d atP21.201.5012-bSB: L1(0)-type; aristotype is Cu; isopointal with HgMn-type; close packed CuAu layers in c stacking
AuCu342587PM3-M c acP4All cuboctahedra: AL: Cu12; Cu: Al4Cu8"Al3U, UAl3, Ca3Hg, auricupride, SB: L1(2)"Aristotype is Cu-type, obtained for ordered structure; close packed Cu3Au layers (Au atoms form triangular mesh) in c stacking.
AuCu342587PM3-M d bcP4
Autunite33193I4/mmm139 e3 d atI972.653.3 Ca(UO2)2(PO4)2 (H2O)10.5
axinite4343P1-2 i26aP54
B972R3-mH166 i4 h10 c bhR105
B972R3-mH166 i4 h10 c2 bhR105
B972R3-mH166 i4 h10 c2 bhR106
B972R3-mH166 i5 h11 c3 bhR108
B13C223923R3-mH166 h2 c bhR15
Ba(IO3)223276C12/c1 f4 emS36.6.7
Ba(IO3)223276I12/a115 f4 emS36.85.95
Ba2.4Bi1.6O673981Fm3-m j c b acF40
Ba2Mn8O1662096C12/m112 i6 bmS25
Ba2Mn8O1662096C12/m112 i6 bmS26
Ba2MnS326231PnmaAB2X3c6oP24
Ba2Ni(NO2)624508Fm3-m h e c acF84
Ba2NiTeO625005R3-MH166 h2 c3 b ahR20
Ba2Zn7O1840925P1-2 i13 baP27
Ba3CdSn2S849028I4-3d e d c2 bcI116
Ba3FeN336502P63/M h2 chP14.62.8
Ba3FeN336502P63/M h2 dhP14.62.8
Ba3Si2Ba18O5491556Fd3-mZ227 g f e d c b acF224
Ba3Yb4O933239R3H146 b3 a7hR16
Ba4OCl616026P63MC c3 a2hP22
Ba4OCl616026P63MC c3 b2hP22
Ba4SiAs426467P4-3n i2 e2 d acP72
Ba5AlIr2O1167143Pnma62 d3 c13oP76
Ba5Si324598P4/ncc130 g f c2tP32
Ba8Y3Pt4O17.5202817Pm3-m h g e d c acP32
BaAlF537033P21212119ABX5a7oP28
BaBiO387326I12/m1 j i2 c amS20
BaBiO387326I12/m1 j i2 d amS20
BaCd1158644I41/AMDS141 i c b atI480.5410.766
BaCd1158644I41/AMDS141 i d b atI480.5410.766"Ba: 22: (Cd1)2(Cd2)4 (Cd3)8+8; Cd1: 14: (Cd2)4(Cd3)8Ba2; Cd2: 12: (Cd1)2(Cd3)10Ba2; Cd3: isosahedron: Cd10Ba2"
BaCdSnS410472Fdd243 b13 a2oF224
BaCl2O640285Fdd243 b4 aoF72
BaCu2S266656Pmma62AB2X2c5oP2011.22
BaFe2S423081I4/M h d atI140.60.77
bafertisite20369C1m1 b25 a14mS144
bafertisite(substr.)20290P121/m111 f4 e7 amP36
BaHg1158656PM3-M j i g c acP36 CdCd11
BaHg1158656PM3-M j i g d bcP36 CdCd11
BaMnFeAl2(OHPO4)36207P121/m111 f9 e5mP52 bjarebyite
BaMnS231453Pnma62 c4oP161.752.2 SrZnO2
BaMo6S865775P1-2 i7 aaP15
banalsite4447Ibam72 k5 j2 g aoI108
BaNd2NiO562627Immm71 l i d b aoI182.83.3
BaNd2NiO562627Immm l j c b aoI182.83.3
BaNd2NiO562627Immm71 l j d c aoI182.83.3
BaNiO330661P63/MMC h c ahP100.751.00 BaTiS3, BaVS3, CsNiCl3, NaBa3N
BaNiO330661P63/MMC h d ahP100.751.00 BaTiS3, BaVS3, CsNiCl3, NaBa3N
BaNiSn358662I4MM b a3tI101.9052.699"Ba: 17: Ni5Sn12; Ni: 10: Ba5Sn5; Sb1: monocapped sq. antiprism: Ba4NiSn4; Sn2: 12: Ba4Ni2Sn6"BaPtSn3, SrNiSn3
BaP323618C12/m112 j i2mS16
BaPb358665R3-MH g d c bhR123.004.20
BaPb358665R3-MH h e c ahR123.004.20
BaPt55492P63/MMC c ahP4.91.2
BaPtSb59186P6-M2 e c bhP30.861.10 LiBaSi, SrPbSb, ThAuSi, YbPtP
BaPtSb59186P6-M2 f d ahP30.861.10 LiBaSi, SrPbSb, ThAuSi, YbPtP
BaS323637P4-21m113 e c atP8
BaSi2O5100314C12/c115 f11 e amS96
BaSiF626613R3-MH166 h b ahR8.931
BaSO431894PBNM d c4oP240.640.85
BaSO431894PBNM d c4oP400.640.85
BaSO431894PNMA d c4oP240.730.90 KGaH4m, Sb: H2
BaSO431894PNMA d c4oP400.730.90
BaSr5Lu2W3O1837058R3-MH166 h3 c5 ahR29
BaTiO3-2H34619P63/MMC k h f2 b ahP302.32.7
BaTiSi3O936185P6-C2 l k2 e chP28 also benitoite-type
BaUO436239Pmab57 e d2 c aoP24
BaV10O1514173Ccmb64 g4 f2 e d b aoS104.79.96
BaZn558684Cmcm63 g e c2oS24.45.55
BaZnFe6O1124575R3-MH166 h4 c6 b ahR38
BaZnO225559P3121 c b ahP121.11.25
Be17Nb258724R3-mH166 h g e c2hR19
Be17Ru358735Im3- h g3 f e dcI160
Be2CaGe225337P4/NMMS129 c3 b atP102.0722.936"Ce: 16+5: Be8Ge8(BeCa4); Be1, Ge1: 12: Ca4Be4Ge4; Be2, Ge2: monocapped sq. antiprism: Be2: Ge5Ca4; Ge2: Be5Ca4"BaMg2Pb2
Be2SiO436276R3-R148 f7hR42 phenakite, eucryptite, S1(3)=H13
Be3N225656P63/MMC f c b ahP102.83.8
Be3Nb58723R3-MH h c2 b ahR124.105.30 Ni3Pu
Be7Rh16030P6-m2187 n j i h g2 f dhP18
BeMg2Al6O1231257R3-mH166 h4 d c7 ahR42
BeO18147P42/MNM g ftP8
Bi2Cu(SeO3)466827P121/c114 e9 amP38.7.86
Bi2CuO468813P4/NCCS130 g f ctP280.5730.812Bi: 6: O4+2 (+1Bi); Cu: square: O4 (+2Cu); O: tetrahedron: Bi3Cukusachiite
Bi2Ni3Se21024C12/m112 j i3 h fmS28
Bi2Pb2Se530372P3-m1164 d3 c ahP9
Bi2Te315753R3-MH c2 ahR56.208.00 As2Te3, Bi2Se3isopointal with AgCrSe2
Bi2Te315753R3-MH c2 bhR56.208.00 As2Te3, Bi2Se3isopointal with AgCrSe2
Bi2Te315753R3-MR c2 ahR511
Bi2Te315753R3-MR c2 bhR511
Bi4(SiO4)3402349I4-3d e c acI76
BiF3/Cu2MnAl24522FM3-M c b acF15
BiF3/Cu2MnAl24522FM3-M c b acF16Bi: 14: (F2)8(F1)6; F1: 14: (F2)8Bi6; F2: 14: (F1)4Bi4(F2)6BiF3, Cu2MnAl, Heusler-type, gananite, SB: D0(3), L2(1)Bi atoms form Cu-type substructure, F in all octahedral and tetrahedral voids. 3D-framework of fused BiF8 and FF8 cubes. Sequence along body diagonal: -Bi-F-F-F-. For metallic occupation: Cu2MnAl-type with W as aristotype
BiI1558C12/m1 i8mS321.251.56
BiI336182R3-H148f chR8
BiIn58790P4/nmmZ129 c atP4.66.98
BiIn(hP1)58789P6/MMM ahP10.851.10
BiIn(hP1)58789P6/MMM bhP10.851.10
Bikitaite 1A29551P1 a22aP26 zeolite-BIKCommon (Si, Al)O2-framework in a18 with 18 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
BiO30361R3MH160 a2hR2 Slightly deformed ZnS(sphalerite)-type. Alpha=59.05 instead of ideal 60 degree.
BiSe20458P3-m1164 d4 c2hP12
bloedite20576P121/a114 e8 amP50.45.55
BN35538P63/MMC d chP4
bobfergusonite63261P121/n114 e39 d amP156 Na2Mn5FeAl(PO4)6
boggsite69120Imma j19 i6 h5 g2oI699 zeolite-BOGCommon (Si, Al)O2-framework in j15 i2 h2 g2 with 288 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
boracite30616Pca2129 a24oP96
boracite (HT)30351F4-3c219 h e d c b acF192
botryogen16938P121/n114 e19 b amP140
BPO426890I4- g c atI12
brackebuschite76869P121/m111 f2 e9 amP30
brackebuschite76869P121/m111 f2 e9 amP31.81.2
brackebuschite76869P121/m111 f2 e9 amP32.81.2
brewsterite15885P121/m111 f12 e5 cmP791.11.2 zeolite-BRECommon (Si, Al)O2-framework in f12 e4 c with 48 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
brookite56155Pbca61 c3oP24 TiO2(oP)
C(cF8)53779FD3-MS227 acF8 Diamond, SB: A4
Ca14AlSb1133266I41/acdS142 g5 f e b atI208
Ca2Al2FeSi3O12OH20387P121/m111 f3 e13 c amP44 epidote
Ca2AlFeO527112Pnma62d3 c2 aoP36.951.05 brownmillerite
Ca2MgSi2O734805P4-21M f e3 c atP240.5440.7714-a, 8-b; 4-aCa2ZnSi2O7, melilite, hardystoniteUnits of two corner-linked SiO4 tetrahedra share corners with MgO4 terahedra to form infinite layers.
Ca3Al2(OH)1266274Ia3-d h c acI232 hydrogarnetRelated to garnet structure with (OH)4 instead of SiO4
Ca3Al2SO4 (OH)10(H2O)228378C12/c115 f10 e2mS112
Ca3Ge2As416455P121/c114 e9mP36.951.06
Ca3ZrSi2O979453P121/c114 e15mP60
Ca5(PO4)3Cl24237P63/M i h4 f bhP42.66.77 also apatite-type (2 types depending on Cl- or F-position
Ca5(PO4)3F30261P63/M i h4 f ahP42.66.77
Ca5(PO4)3F30261P63/M i h4 f ahP43.66.77
Ca5(PO4)3F30261P63/M i h4 f ahP44.66.77
Ca7Ge43321FM3-M d b acF32 CuPt7
Ca7Sn654618Pnma62N6O7d5 c3oP52
Ca9Zn4Bi98157Pbam55 h5 g5 d boP44.2.26
CaAl12O1934394P63/MMC k3 h f3 e d b ahP643.505.50 hibonite, magnetoplumbite
CaAl12O1934394P63/MMC194 k3 h f3 e2 c ahP643.505.50
CaAl12O1934394P63/MMC194 k3 h f3 e2 d ahP643.505.50
CaAl2Si2O823922P1-2 i52aP104 anorthite
CaAl4O744519C12/c115 f5 e2mS48.37.48 grossite
CaAlSiO4OH12127P212121 a8oP36 austinite, adelite, vuagnatite
CaB2Si2O820590Pnma62 d5 c3oP52 danburite
CaB626893PM3-M NO6, AX6e bcP7 SB: D2(1)
CaB626893PM3-M f acP7Ca: 24: B24; B: tetrag. pyramid: B5 (+4Ca)B6Ca, SB: D2(1)B6 octahedra are interconnected via exo-bonds to form a 3D-framework.
CaBSiO4OH24667P121/c114 e8mP32 datolite
CaBSiO4OH24667P121/c114 e8mP36 datolite
CaC256158F4/MMM e atI60.0012.000
CaC256158F4/MMM e btI60.0012.000Ca: 10: C2+8; C: 1+5: deformed octahedron: CCa5SB: C11(a)Isopointal with MoSi2- and CuZr3-type. C-C-dumbbells (C-C= 1.15)
CaC256158I4/MMM e atI61.3801.956Ca: 10: C2+8; C: 1+5: deformed octahedron: CCa5SB: C11(a)Isopointal with MoSi2- and CuZr3-type. C-C-dumbbells (C-C= 1.15)
CaC256158I4/MMM e btI61.3801.956Ca: 10: C2+8; C: 1+5: deformed octahedron: CCa5SB: C11(a)Isopointal with MoSi2- and CuZr3-type. C-C-dumbbells (C-C= 1.15)
CaCl226686Pnnm g aoP60.60.75
CaClOD62041P63MC b2 ahP82.32.9
CaCO3(hR10)37241R3-cH e b ahR102.954.00 calcite, SB: G1
CaCO3(hR10)37241R3-cR e b ahR10 calcite, SB: G1
CaCO3(oP20)56090Pmcn ABX3d c3oP2011.35 aragonite
CaCO3(oP20)56090Pnma ABX3d c3oP201.21.55 aragonite
CaCrF510286C12/c115 f2 e2 amS28
CaCu58880P121/m111 e10mP20
CaCu558882P6/MMM f d bhP60.720.90 CaZn5, ErCo5
CaCu558882P6/MMM g c ahP60.720.90 CaZn5, ErCo5D2(d)-type
CaF253978FM3-M c acF12Ca: cube: F8; F: 4+6: tetrahdron: Ca4 (+6F)Mg2Si, Li2O, fluorite, anti-fluorite, SB: C1Includes also the anti-type as Li2O; close packed Ca layers in c stacking, F occupies all tetrahedral voids. 3D-framework of edge-sharing CaF8 cubes.
CaF253978FM3-M c bcF12Ca: cube: F8; F: 4+6: tetrahdron: Ca4 (+6F)Mg2Si, Li2O, fluorite, anti-fluorite.SB: C1Includes also the anti-type as Li2O; close packed Ca layers in c stacking, F occupies all tetrahedral voids. 3D-framework of edge-sharing CaF8 cubes.
CaFe2O416695PBNM AB2X4c7oP280.240.35 CaV2O4, BaSm2S4
CaFe2O416695PNAM AB2X4c7oP280.250.40 CaV2O4, BaSm2S4
CaFe2O416695PNMA AB2X4c7oP281.001.30 CaV2O4, BaSm2S4
CaFe3Si2O7OOH31306P121/a114 e15mP64 ilvaite
CaGaN2027P4/nmmZ129 c3tP6
CaGe2Ni4449P3121152 c9 b2 a2hP63
CaHPO438128P1-2 i12aP28 monetite
CaIn258906P63/MMC f ahP61.421.80
CaIn258906P63/MMC f bhP61.421.80
CaLiAlF625022P3-1c i d c bhP18 Colquiriite
CaLiSi225327Pnma62c4oP16
CaMg(CO3)256091R3-H f c b ahR102.954.00 CaSn(BO3)2, dolomite, SB: G11Aristotype is CaCO3(hR10)
CaMg(CO3)256091R3-R ABC2X6f c b ahR10 CaSn(BO3)2, dolomite, SB: G11Aristotype is CaCO3(hR10)
CaMg(SiO3)230294C12/c115 f4 e2mS40 diopside
Cancrinite44892P63 c9 b ahP56 zeolite-CANCommon SiAlO4-framework in c6 with 36 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
CaRh2B249737Fddd70 f e aoF40
carpholite34520CccaZ68 i6 f2 eoS152
carpholite34520CccaZ68 i6 f2 e boS140
carpholite34520CccaZ68 i7 f2 e boS139
CaSb2862P121/m111 e3mP61.82.2
CaSi2(hR3)15632R3-MH c ahR33.755
CaSi2(hR6)52789R3-MH166 c3hR6
CaSiO320589P121/a114 e15mP60 wollastonite
CaSO456107Cmcm63 g f c2oS24 anhydrite, ferruccite
CaSO4(H2O)227875I12/c115 f3 e2mS48 gypsum
CaSO4(H2O)227875I12/c115 f3 e2mS52 gypsum
CaTiO331865PM3-M c b acP5Ti: octahedron: O6; Ca: cuboctahedron: O12; O: 2+4: colinear Ti2 (+4Ca)CaPdH2, Ca3PbO, CeRh3B, Fe3PtN, LaPd3B, Mn3AlC, perovskite, SB: E2(1)Includes also anti-types as AlFe3C; close packed CaO3 layers (O atoms from Kagome net) in c stacking, Ti in octahedral voids. TiO6 octahedra share corners to form a 3D-framework. Linear PdH2 units in CaPdH2.
CaTiO331865PM3-M c b acP9Ti: octahedron: O6; Ca: cuboctahedron: O12; O: 2+4: colinear Ti2 (+4Ca)CaPdH2, Ca3PbO, CeRh3B, Fe3PtN, LaPd3B, Mn3AlC, perovskite, SB: E2(1)Includes also anti-types as AlFe3C; close packed CaO3 layers (O atoms from Kagome net) in c stacking, Ti in octahedral voids. TiO6 octahedra share corners to form a 3D-framework. Linear PdH2 units in CaPdH2.
CaTiO331865PM3-M d b acP5Ti: octahedron: O6; Ca: cuboctahedron: O12; O: 2+4: colinear Ti2 (+4Ca)CaPdH2, Ca3PbO, CeRh3B, Fe3PtN, LaPd3B, Mn3AlC, perovskite, SB: E2(1)Includes also anti-types as AlFe3C; close packed CaO3 layers (O atoms from Kagome net) in c stacking, Ti in octahedral voids. TiO6 octahedra share corners to form a 3D-framework. Linear PdH2 units in CaPdH2.
CaTiO331865PM3-M d b acP9Ti: octahedron: O6; Ca: cuboctahedron: O12; O: 2+4: colinear Ti2 (+4Ca)CaPdH2, Ca3PbO, CeRh3B, Fe3PtN, LaPd3B, Mn3AlC, perovskite, SB: E2(1)Includes also anti-types as AlFe3C; close packed CaO3 layers (O atoms from Kagome net) in c stacking, Ti in octahedral voids. TiO6 octahedra share corners to form a 3D-framework. Linear PdH2 units in CaPdH2.
CaTlSe21573C1c19 a16mS64
CaWO415586I41/AZ88 f b atI241.7032.413Ca: square antiprism: O8; W: tetrahedron: O4; O: copl. triangle: Ca2W (+7O)scheelite, NaAlH4Isolated AlH4 tetrahedra in NAlH4.
Cd2Ce58951P3-M1 d ahP30.600.80 EuGe2
Cd2Ce58951P3-M1 d bhP30.600.80 EuGe2
Cd3PCl3201025P3- g e d2 bhP14
Cd3PCl3201025P3- g f d2 ahP14
Cd45Sm112246F4-3m h6 g f e6 d c b acF440
Cd45Sm112246F4-3m h6 g f e6 d c b acF448
Cd4GeS626214C1c19 a11mS44.91.2
Cd58Gd1358979P63/MMC l k5 j i h3 g f c b ahP1420.601.10 Gd2Zn9, Gd2Cd9, Pu2Zn9, Gd13Zn58
Cd58Gd1358979P63/MMC l k5 j i h3 g f d b ahP1420.601.10 Gd2Zn9, Gd2Cd9, Pu2Zn9, Gd13Zn58
Cd6Y9148IM3- h g4 f e dcI168
CdCl2(3R)30255R3-MH c ahR33.75
CdCl2(3R)30255R3-MR c ahR3
CdGeO323531I41/AZ88 f8 e d c b atI1600.8301.176Cd1: 8: O8; Cd2: 8: O6+2; Cd3: 6: O6; Ge1: 6: O6; Ge2.3: 4: O4; Ge4: 6: O4+2; O1.4.5: 4: Cd3Ge; O3.6: 4: Cd2Ge2; O2: copgarnetAristotype is Mg3Al2Si3O12
CdI2(18R)42269R3-MH166 c4 ahR9
CdI2(2H)53983P3-M1 d ahP31.421.85 Cd(OH)2, Mg(OH)2, Ta2C, SB: C6
CdI2(2H)53983P3-M1 d bhP31.451.85
CdI2(4H)38116P63MC b2 ahP62.63.5 C27-type, CdI2-family (of stacking variants) Zhdanov-symbol: (2 2) (for iodine layers)
CdI2(hP9)20745P3-M1 AX2, NO2d3 c ahP93.55
CdIn2Se425648P4-2m111 n f atP7
CdMn2O424258I41/AMDS141 h d atI281.4272.022Cd: tetrahedron: O4; Mn: octahedron: O4+2; O: tetrahedron: CdMn2+1 Close packed O layers in c stacking, Mn in octahedral, Cd in tetrahedral voids.
CdP425605P121/c114 e2 amP10
CdTm4Mo3O16108783Pn3-NZ222 i f e d ccP96
Ce2Co7B320086P6/MMM i2 h e d c b ahP242.202.90
Ce2Cu9In3102134Pnnm58 h2 g9 d aoP56
Ce2CuGe676491Amm238 b5 a4oS18
Ce2Ni17C381738I4/mcm140 l2 k d atI56
Ce2Ni22C320555Cmca64 g9 f7 e b aoS216
Ce2Ni2Sn55495Immm j h aoI101.92.4
Ce2Ni7102233P63/MMC k h f3 e ahP364.306.50
Ce3Ni6Si225622IM3-M h e ccI44
Ce5Co19102100R3-mH166 h2 c5 b ahR24
Ce5Mg41102220I4/m87 i3 h4 f b atI92
Ce5Ni2Si360153P63/m176 h6 c bhP40
Ce6Ni2Si342100P63/m176 h3 c bhP22.3.4
CeAgAs2413723Pmca57 e d4 c2oP32
CeAl2Ga257576I4/MMM e d atI102.2123.150Ce: 20: Ga8Al8Ce4; Al: 12: Ga4Al4Ce4; Ga: monocapped sq. antiprism: GaAl4Ce4ThCr2Si2, Al4Ba, LiCu2P2, ThCr2Ge2, CaAl2Zn2, PrNi.5Ga3.5, SB: D1(3)Infinite layers of interconnected AlGa4 tetrahedra. Ga-Ga dumb-bells. (for deviations see 3rd. ref.)
CeAsS42432P121/n114 e3mP1244.8
CeCO3F27591P6-2C i h2 g f ahP361.201.55 bastnaesite
CeCo4B42101P6/MMM i d c b ahP121.231.55B2-dumbbells, B-B=1.72
CeCo4B416193P42/NMCZ137 g2 btP181.1821.674Ce: 24: Co12B12; Co: 12: B5Co4Ce3; B: 9: BCo5Ce3Q-PhaseB-B-dumbbells (B-B=1.72) and isolated Co4 tetrahedra.
CeCoC220827C1c19 a4mS16
CeCr2B616203Immm71 l j h aoI18
CeCu6102127Pnma62NO6d c5oP28
CeCu6102127Pnma62NOP5d c5oP281.11.43
CeF34P3-c1 g f d ahP24 LaF3, Cu3P, HoH3, tysonite
CeMn6Ni5102223P4/MBM k j g c atP240.500.90 U(Ni.68Si.32)11tP24, P4/mbm, 1.5-1.9, k j g c a, 102223
CeNi12B660771Cmc2136 b7 a5oS76
CeNi3102230P63/MMC k f d c b ahP242.903.80
CeNi5Sn20350P63/mmc k f2 d c b ahP28
CeNiC220397Amm2 e b aoS8
CeNiSi242711CMCM63 c4oS13 BaCuSn2, SrCuSn2
CeNiSi242711Cmcm63 c4oS14 BaCuSn2, SrCuSn2
CeNiSi242711CMCM63 c4oS15 BaCuSn2, SrCuSn2
CeNiSi242711CMCM63 c4oS16 BaCuSn2, SrCuSn2
CePO4(hP18)31563P6222 k d chP180.801.05 rhabdophane
CePO4(mP)27860P121/a1 e6mP24 monazite
CePO4(mP)27860P121/n1ABX4e6mP24.91.1
chabazite18197R3-mH i2 h3 g fhR37 Common (Si, Al)O2-framework in i h2 g f with 36 atoms/(rhombohedral cell), great variability of additional enclosed counter-cations and adsorbed molecules
chabazite18197R3-mR166 i2 h3 g f e c2hR77 Common (Si, Al)O2-framework in i h2 g f with 36 atoms/(rhombohedral cell), great variability of additional enclosed counter-cations and adsorbed molecules
chapmanite200068C1m18 b5 a4mS30 Fe2SbSi2O8OH
chevkinite(mP)6251P121/c114 e16 d c bmP70 chevkinite(mP), Mg2Nd4Ti3Si4O22
chevkinite(mS)75471C12/m112 j3 i9 e d b amS70
Chloritoid 2M16679C12/c115 f10 e cmS104
Chloritoid 2M16679C12/c115 f10 e cmS95
Chudobaite267P1-2 i17 aaP57
ClF319079Pnma62 d c2oP16
CO26962P213 a2cP8isolated C-O molecules SB: B?-type; isopointal with FeSi-type
Co(NH3)5NO2ClNO339510Pna2133 a14oP116
Co11Ga6Sm2620824P4/mbm127 l2 k2 j h g2 f2 e2 atP86
Co19Zr5P1240859P6-2m189 k2 j g2 f3 e chP36
CO2(cP12)22398PA3- c acP12Isolated linear O=C=O molecules, C-O=1.043 Isopointal to FeS2(cP12)
Co2GaGd6102430Immm71 n m l i h d boI36 Co2+xIn1-xHo6
Co2GaGd6102430Immm71 n m l j g c aoI35 Co2+xIn1-xHo6
Co2GaGd6102430Immm71 n m l j g c aoI36 Co2+xIn1-xHo6
Co2In4Lu3102502P6-174 k j f d ahP9
Co2InTb102444Pmma51 f e2 boP8
Co2InTb102444Pmma51 f2 e aoP8
Co2P2O72830B121/c1 e11mP44
Co2P2O72830P121/c1 A2B2X7e11mP441.11.4
Co2Si52281PMNB c3oP121.72.2 Ca2Si, Ni2Si, Rh2Ge, SB: C37
Co2Si52281PNAM c3oP120.670.85 Ca2Si, Ni2Si, Rh2Ge, SB: C37Differs from MgSrSi-type by slightly different axial ratios
Co2Si52281PNMA c3oP121.251.66 Ca2Si, Ni2Si, Rh2Ge, SB: C37Differs from MgSrSi-type by slightly different axial ratios
Co3Ga9Y220951Cmcm63 h g2 f e c aoS56 Co3Ga9Ho2
Co3Ho423191P63/m176 h3 d bhP21
Co3Lu2Si576349C12/c115 f3 e4mS40
Co3Nb4Si753019I4/mmm139 k j i h2 e ctI56
Co3U2Si520930Ibam72 j3 g b aoI40
Co3V102718P6/mmm191 o i h ehP24
Co3W9C416888P63/MMC k h2 g chP320.901.15
Co3W9C416888P63/MMC k h2 g dhP320.901.15
Co4Fe4Th102409R3-mH166 h f d c2 ahR19
Co4Ge7Zr416931I4/MMM k j2 i h2 etI600.350.45 Nb4Co4Si7
Co4Hf2P325758P6-2M k j2 g3 f2 d bhP360.260.35 Co4Nb2P3
Co4Hf2P325758P6-2M k2 j g2 f3 c ahP360.260.35 Co4Nb2P3
Co4NdB42372P42/NS86 g2 atP180.470.60B-B dumbbells, B-B=1.74; edge sharing Co4 tetrahedra
Co4NdB42372P42/NS86 g2 btP180.4540.644Nd: 20: B12Co8 (+2Nd); Co: 13: B5Co6Nd2; B: 9: BCo5Nd3 B-B-dumbbells. B-B=1.74. Infinite chains of edge-sharing Co4 tetrahedra and infinite -Nd- chains.
Co4Sc5Si1030519P4/MBM j i2 h2 g atP380.2750.390Co: 10: Si5Sc5; Sc1: 16: Si12Co4; Sc2: 15: Si8Co4Sc3; Sc3: 20: Si10Co4Sc6; Si1: 9: SiCo2Sc6; Si2: 12: Co2Si7Sc3; Si3: 12Co2Sc3Si5Double infinite columns of base-linked SiSc6 trigonal prisms. Infinite columns of Co(Sc4Si4) square antiprisms.
Co5Cr2Mo3102320R3-H148 f8 c2 bhR531.52
Co5YP340505Pnma62 c9oP36
Co6Ho7Sn2363511Pm3-1164 i4 g d2 b ahP36
Co7Er2102366R3-MH h d c4 ahR187.009.50 Co7Gd2
Co7Er2102366R3-MH h e c4 bhR187.009.50 Co7Gd2
Co7Ho12610P121/c114 e9 bmP381.61.7
Co7Ho6Ga2120260P4/mbm127 j3 i3 h2 g2 d atP68
Co9S831753FM3-M f e c bcF68 Pentlandite, (Fe, Ni)9S8SB: D8(9)-type
CoAs15065Pna21 a2oP8.55.7
CoAs338229IM3- g ccI32 Skutterudite, SB: D2SB: D0(2)-type
coesite36261C12/c115 f5 e amS48.91.11
CoGa3Pr820941P63mc c3 b2 ahP24.6.72
CoGa8Ho242426P4/MMM i h g e atP112.303.00 tP11, P4/mmm, 2.3-3, i h g e a, 42426
CoGe43677C12/m112 i3 c amS16
CoHoGa542427P4/MMM i c b atP71.501.68 CoUGa5
CoHoGa542427P4/MMM i d b atP71.501.68 CoUGa5
CoHoGa542427P4/MMM i d c atP71.501.68 CoUGa5
CoIn3102500P4-n2 i f etP16
combeite(HT)31245R3-mH166 h3 g e d c ahR32 Na4Ca4si6O18
CoMo2S42018C1c19 a14mS5611.15
CoNb3S642688P6322 i f c ahP201.802.50 MnNb3S6, FeTi3S6
CoNb4Si43233P4/MCC m c atP120.701.40
CoNbB241893Pnma c4oP161.21.5
CoO53059I4/MMM b atI41.1741.664Co: octahedron: O6; O: octahedron: Co6 Aristotype is NaCl; Close packed layers in c stacking, Co in octahedral voids.
copiapite23662P1-2 i28 aaP99 MgFe4(SO4)6 (OH)2(H2O)20
Cordierite36248Cccm66 m3 l6 k g boS116 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g b aoS118 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g b aoS125 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g c b aoS121 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g c b aoS124 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g c b aoS129 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g d b aoS129 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g2 c boS121 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
Cordierite36248Cccm66 m3 l6 k g2 c boS123 Mg2Al2Si(Al2Si4O18)Channels of (Al2Si4O18)-rings may contain H2O or CO2
CoSb243500P121/c114 e3mP12
CoSeO3(H2O)269219P121/n114 e7mP44 cobaltomenite
CoSn102671P6/MMM f d ahP60.720.90 SB: B35
CoSn102671P6/MMM g c bhP60.720.90 SB: B35
CoUC263622P4/nmmZ129 c3tP8
CoUC263622P4/nmmZ129 c3 atP8
CoW2B216776Immm h f aoI10.4.5 Mo2NiB2
CoYC(tP3)65818P4/mmm e d atP3
CoYC(tP6)61684P42/mmc131 e c btP6
CoZn13102736C12/m112 j2 i2 c amS28
CoZr2Si2371C12/m112 i5mS20
Cr(NH3)6CuCl522076Fd3-cZ228 h g e c bcF992
Cr11Ge842123Pnma62d3 c13oP76
Cr12P730547P63/m176 h4 ahP19
Cr23C643377FM3-M h f e c acF116Cr1: 12: (Cr4)12; Cr2: 16: (Cr3)3(Cr4)12; Cr3: 13: (Cr3)2(Cr3)3 (Cr4)6C3; Cr4: 14: Cr12C2; C: square antiprism: Cr8C6Cr23, tau-carbide, SB: D8(4)3D-framework of corner-linked CCr8 square antiprisms, additional Cr atoms in unterstices - or - fused Mn alpha-type nested polyhedra units, additional Cr atoms in interstices.
Cr23C643377FM3-M i f e c bcF116Cr1: 12: (Cr4)12; Cr2: 16: (Cr3)3(Cr4)12; Cr3: 13: (Cr3)2(Cr3)3 (Cr4)6C3; Cr4: 14: Cr12C2; C: square antiprism: Cr8C6Cr23, tau-carbide, SB: D8(4)3D-framework of corner-linked CCr8 square antiprisms, additional Cr atoms in unterstices - or - fused Mn alpha-type nested polyhedra units, additional Cr atoms in interstices.
Cr2Ho2C362083C12/m112 i3 cmS14 Dy2Fe2Si2C
Cr2Ho2C362083C12/m112 i3 dmS14 Dy2Fe2Si2C
Cr2S3(hP20)16720P3-1C i f c bhP201.752
Cr2S3(hR10)16721R3-H148 f c b ahR102.73
Cr3AsN25760I4/mcm140 h c b atI20
Cr3S416722C12/m112 i3 amS14
Cr3Si16835PM3-N c acP8Cr: 14: Cr2+8Si4; Si: icosahedron: Cr12W3O, UH3, SB: A15SiCr12 icosahedra share faces and egdges to form a 3D-framework. Frank-Kaspar phase (FKP).
Cr3Si16835PM3-N d acP8 W3O, UH3, SB: A15SiCr12 icosahedra share faces and egdges to form a 3D-framework. Frank-Kaspar phase (FKP).
Cr5B327124I4/MCM l h c atI321.6372.3199-a, 10-c, 14-b, 16-aBa5Pb3, SB: D8(l)IGS of U3Si2- and CuAl2 thetatype slabs. One B-B dumb-bell for one single B atom.
Cr5CsS82566C12/m112 i6 d amS28.45.52
Cr7C387129Pnma62 d3 c4oP40
crandallite6195R3-mH166 h2 d c2 ahR27
crandallite6195R3-mH166 h2 f d c2hR27 CaAl3PO4PO3OH(OH)6
crandallite6195R3-mH166 i h2 d c2hR26
CrB424353Immm n aoI10
CrCuS2100595R3mH160 a5hR4
CrEr2S4657Pca2129 a14oP56
CrFe102748P42/MNM j i2 f atP300.4330.614M1.4: 12: M12; M2.5: 15: M15; M3: 14: M14SB: D8(b)
Cristobalite high35536Fd3-mZ227 c acF24
CrMoO327551R32H155 d chR5
CrNb4Se853191P63/mmc194 k g f b ahP26
CrSi216836P6222 j dhP91.301.65 SB: C40
CrU2N387244Immm71 i2 b aoI12
CrU8S171990C12/m112 j3 i6 c amS52
CrYB416171PBAM h2 g4oP240.500.65 FeSmB4
CrYB416171PBAM h4 g2oP240.500.65 FeSmB4
CrZrSi220554Pbam55 i3 h2 g3 eoP48 MnTiSi2, FeScSi2
CrZrSi220554Pbam55 i3 h3 g2 foP48
Cs2(Mo3SeO12)75473P63 c5 b2 ahP361.51.86
Cs2CuCl436175Pnma62AB2X4d c5oP28
Cs2LiCo(CN)660538Fm3-m e2 c b acF64
Cs2S2O6200865P63MC c2 b3 ahP20
Cs2TeO359164P321 g d2 b ahP121.051.3
Cs2Zn3S453242Ibam72 k j g boI36
Cs3Cr2Cl916706P63/MMC k h f2 bhP282.32.7
Cs3Cr2Cl916706P63/MMC k h f2 ehP282.32.7
Cs3Ir(NO2)628640Fm3-m h e c b acF88
Cs3Re3S4I488610Fm3-m f e2 d ccF112
Cs3Re5OsS1150226Im3- h2 g f e dcI160
Cs3Tl2Cl926657R3-cH167 f e2 chR2811.5
Cs5SiP365715Pnma62AB5X3c9oP36
CsAlSi2O615964IA3-D h g bcI160 pollucite
CsCd(NO2)356431R3H146 b3 a2hR11
CsCl53847PM3-M b acP2Cs: 14: Cl8Cs6; Cl: 14: Cs8Cl6ClCs, CuZn, SB: B23D-framework of fused CsCl8 (or ClCs8) cubes.
CsCl53847PM3-M b acP6Cs: 14: Cl8Cs6; Cl: 14: Cs8Cl6ClCs, SB: B23D-framework of fused CsCl8 (or ClCs8) cubes.
CsClO431430Fm3-m f b acF24
CsCu3S223326P3-M1 e d bhP6
CsCu3S223326P3-M1 f d ahP6
CsFeF46043P4/nmmZ129 j i d c btP24
CsFeF46043P4/nmmZ129 j i e c atP24
CsI327252Pnma62 c4oP16
CsN328537Pm3-m e b acP4
CsNbN272546Fd3-mZ227 c b acF32
CsNd(PO4)420154I4-3d e4 c acI216
CsSCN60870Pnma62 c4oP16
Cu53755FM3-M acF4Cu: cuboctahedron: Cu12Au, ccp, SB: A1Close packed layers in c stacking.
Cu15Si436254I4-3d e c acI76
Cu2(OH)2CO330609P121/a114 e8mP40.3.38 malachite
Cu2AsO4OH1112P121/c114 e8mP36
Cu2Cl(OH)314203Pnma62 d c3 aoP36 atacamite
Cu2ErS216812P3- d2 ahP51.451.80
Cu2FeSnS426721I4-2M i d b atI161.6502.337All tetrahedra: Cu, Fe, Sn: S4; S: Cu2FeSn (+12S)stannite, kuramiteClose packed S layers in c stacking, cations in tetrahedral voids. Isolated SnS4 tetrahedra. Aristotype is ZnS(cF8)
Cu2HgI425591I4-21m121 i d atI14
Cu2Mg103048FD3-MS227 d acF24Cu: 12: Cu6Mg6; Mg: 16: Mg4Cu12Laves-phase-cubic, Friauf-phase-cubic, ZrW2, SB: C15=C39Frank-Kaspar phase (FKP). Mg(Mg4Cu12) Friauf polyhedra (Mg4 terahedron + Cu12 truncated tetrahedron) share hexagonal faces of the truncated tetrahedra to form a 3D-framework. Binary Laves-type slabs in c stacking.
Cu2Mg103048FD3-MZ227 c bcF24Cu: 12: Cu6Mg6; Mg: 16: Mg4Cu12Laves-phase-cubic, Friauf-phase-cubic, ZrW2, SB: C15=C39Frank-Kaspar phase (FKP). Mg(Mg4Cu12) Friauf polyhedra (Mg4 terahedron + Cu12 truncated tetrahedron) share hexagonal faces of the truncated tetrahedra to form a 3D-framework. Binary Laves-type slabs in c stacking.
Cu2O31057Pn3-mS224 b acP6 cuprite, Ag2O
Cu2SnSrS443131P3221 c3 b ahP242.22.8
Cu2SnSrS4(P31)356P31144 a8hP242.22.8
Cu2SnZnS4200419I4-82 g d c b atI16
Cu3As100149I4-3d e ccI64
Cu3As(HT)16840P3-c1165 g f d bhP24
Cu3AsS426743Pmn2131 b2 a4oP16.71.99 Enargite, Li3PO4(LT), H2(5)
Cu3FeS4100727P3-M1 d3 chP82.43.2
Cu3P16247P3-m1164 d3 chP8
Cu3Pd107169P4/MMM i3 h3 g3 e c atP286.77.7
Cu3Pd107169P4/MMM i3 h3 g3 f d btP286.77.7
Cu3SbS331113I4-3m g e d ccI56
Cu3Ti107712PmmnZ59 f b aoP8.75.98
Cu3VS436169P4-3M e c bcP8 Cu3SbS4, SB: H2(4)
Cu3VS436169P4-3M e d acP8 Cu3SbS4H2(4)-type
Cu4KS323336P4/mmm123 i h b atP8
Cu4Mn3Bi458775Fm3-m f e d ccF88
Cu4NaAs259205R3-mH166 c3 ahR756.5
Cu4Zr3Si487200Immm71 l j i h aoI22
Cu4Zr3Si487200Immm71 n h f e aoI22
Cu4Zr3Si487200Immm71 n h f e doI22
Cu5Zn8103158I4-3M g e c2cI52 gamma-brass, SB: D82
Cu7Tb9115P6/MMM g e c ahP60.720.96
Cu7Tb9115P6/MMM g e c ahP70.720.96
Cu7Tb9115P6/MMM g e c ahP80.720.96
Cu8Rb3Se614011C12/m112 i8 bmS34
CuAsS23826Pna21 a3oP12.3.37
CuClSe268292P121/c114 e4mP161.82
CuClSe268292P121/n114 e4mP161.31.5
CuFe2(AsO4)2 (OH)2(H2O)4100444P121/c114 e9 amP58 arthurite
CuFe2S329095Pnma62 d2 c2oP24
CuFePt253259P4/MMM e c atP40.801.2012-bTi3Cu, SrPb3SB: L6(0)-type; Aristotype is Cu; ordered AuCu-type;
CuFePt253259P4/MMM f d btP40.801.20
CuFeS230289I4-2D d b atI161.6512.340All tetrahedra: Cu, Fe: S4; S: Cu2Fe2chalcopyrite, SB: E1(1)Aristotype is ZnS(cF8); close packed S layers in c stacking, Fe and Cu in tetrahedarl voids. 3D-framework of corner-linked FeS4 tetrahedra.
CuHf2Ge430733Cmcm c7oS28
CuHfSi287147P4/NMMS129 c2 b atP822.65
CuHg2Ti102972F4-3M d c b acF16All rhombic dodecahedra (8+6): Cu: Hg4Ti4Hg6; Hg1: Hg4Ti4Cu6; Hg2: Cu4Hg4Ti6; Ti: Cu4Hg4Hg6Li2AgSb, Li2AuSn, Li2CaGe, Li2MgSn, Li2AlRhSequence along body diagonal: -Li-Li-Ag-Sb-. Aristotype is W
CuLaS224375P121/c114 e4mP16.81.2
CuMg2103047Fddd70 f e2oF48 Mn2B
CuMg2103047Fddd70 f2 eoF48 Mn2B
CuMg2103047Fddd70 g2 eoF48 Mn2B
CuMg2103047Fddd70 g2 foF48 Mn2B
CuNa2(CO3)210355P121/c114 e5 amP22
CuNb2Se425375P63/mmc194 f2 chP7
CuNb2Se425375P63/mmc194 f2 dhP7
CuP235282P121/c114 e3mP12
CuPbAsS318121Pmn2131 b3 a6oP24.91 seligmannite, CuPbSbS3
CuSO416747Pnma62 d c3 aoP24 chalcocyanite
CuTi103128P4/NMMS129 c2tP41.702.15
CuZr2103164I4/MMM e atI63.0005.000Cu: 8+6: Zr8Cu4Zr2; Zr: 13: Cu4Zr9SB: C11(a)Isopointal with MoSi2- and CaC2-type
dachiardite28316B112/m12 j9 i6 f emS114 Common (Si, Al)O2-framework in j5 i6 f e with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
diadochite87770P1-2i19aP64 Fe2PO4SO4OH(H2O)6
Dodecasil 3C201182Fd3-mZ227 h g2 f e2 acF408 zeolite-MTNCommon (Si, Al)O2-framework in h g2 with 144 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
Dodecasil-1H48153P6/MMM191 r O3 n l k j i h chP102.75.87 zeolite-DOH
donnayite-1A43454P11 a33aP39 NaCeSr2(CO3)4(H2O)2
donnayite-3R43453R3mH160 c2 b2 a4hR13
dufrenite34830C12/c115 f16 e c amS178 Ca(FeOH)12(PO4)8 (H2O)4
dufrenite34830C12/c115 f16 e c amS180 Ca(FeOH)12(PO4)8 (H2O)4
dumortierite100443Pnma62 d11 c7oP115
dumortierite100443Pnma62 d11 c7oP121
dumortierite100443Pnma62 d11 c7oP125
Dy2OS236603Pnma62A2XY2c5oP20.39.5
Dy3Ni22334C12/m112 i5mS20.8
Dy5Pd2103347Fd3-mS f e3cF96
DyGe2-x53362Cmc2136 a6oS23
edingtonite323P2121218 c9 b aoP53 zeolite-EDI
ekanite(tI)64745I42297 k3 j c atI62
ekanite(tP)2858P4/mcc124 n3 m f b atP63
ekanite(tP)2858P4/mcc124 n3 m f b atP64
epistilbite16995C12/m112 j8 i3 h2 g2 f e bmS123
epsomite16595P21212119 a13oP108 MgSO4(H2O)7
Er2FeC442968Ibam72 j3 aoI28
Er2Mo2C388514C12/m112i3 amS14
Er2Ni3B665737Cmmm65 q i h g doS22.4.5
Er2Pd2Si35438Pnnm g5oP20.5.65
Er2RhSi353413P6-2c i h f bhP24
Er3GaS62511Cmc2136 b3 a4oS40
Er3Ni22150R3-H e2 d ahr151.602.20
Er3Ni22150R3-H f2 c bhr151.602.20
Er3Pd7P474936C12/m112 i6 d bmS28
Er3Ru4Si1262185Cmca64 g2 f2 e d2 aoS76
Er4NiB1320700P4/MNC i h g b atP360.001.15
Er4Rh4Sn13103302I41/ACDS142 g5 f2 e d btI2321.802.25 Tb4(Tb.5Sn.5)Rh6Sn18, Tb5Rh6Sn17
Er5CSi354106P3-m1164 j2 i18 h g f e d4 c b ahP162
Er7CSi454105P6-m2187 o k6 j6 i h ghP48
Er8Rh5C1274646C12/m112 i12 amS49
Erionite31143P63/mmc194 l2 k2 j i h2hP1981.051.25 Common (Si, Al)O2-framework in l2 k2 j i h2 with 108 atoms/(rhombohedral cell), great variability of additional enclosed counter-cations and adsorbed molecules
Erionite31143P63/mmc194 l2 k7 j i h2 f4 bhP2081.051.25 Common (Si, Al)O2-framework in l2 k2 j i h2 with 108 atoms/(rhombohedral cell), great variability of additional enclosed counter-cations and adsorbed molecules
ErIr3B244230C12/m112 g f d amS12
ErIr3B244230C12/m112 h e d amS12
ErNiB420894I4/MMM m l j e dtI481.001.25
ErRh3Si262924Imma74 h f e coI24
ErZn5103319P63/mmc194 k h2 g f ahP36
Eu2CuS359157Pnma62AB2X3c6oP24
Eu2CuS359157Pnma62ABCX3c6oP240.31.5
Eu2Re6S1130736R3-cH167 f2 e c2hR382.54
Eu2Zr2O7108765Fd3-mZ227 f d c b acF88
Eu3As48211Fdd243 b3 aoF56
Eu3S9Sb426535Pnma62A3B4X9c16oP64
EuGa2S48053Fddd70 h6 e b aoF224
EuGa2S48053Fddd70 h6 g b aoF224
EuGe243274P3-m1 d ahP311.35
EuTa2Al2054445Fd3-mZ227 g f d c acF182
fairfieldite16017P1-2 i7 aaP19 Ca2Mn(PO4)2(H2O)2
faujasite9355Fd3-mZ227 i h g3 e2cF608 Zeolite-FAU, Linde-YCommon (Si, Al)O2-framework in i h g3 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
faujasite9355Fd3-mZ227 i h g3 e2 ccF604 Zeolite-FAU, Linde-YCommon (Si, Al)O2-framework in i h g3 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
faujasite9355Fd3-mZ227 i h g3 e2 ccF634 Zeolite-FAU, Linde-YCommon (Si, Al)O2-framework in i h g3 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
faujasite9355Fd3-mZ227 i h g3 e4 ccF624 Zeolite-FAU, Linde-YCommon (Si, Al)O2-framework in i h g3 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
faujasite9355Fd3-mZ227 i h g4 e5 ccF644 Zeolite-FAU, Linde-YCommon (Si, Al)O2-framework in i h g3 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
faujasite9355Fd3-mZ227 i3 h g3 e2cF664 Zeolite-FAU, Linde-YCommon (Si, Al)O2-framework in i h g3 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
faujasite (hex)92901P63/MMC194 l8 k8 j i fhP3081.501.80 zeolite-EMT, EMC-2Common (Si, Al)O2-framework in l8 k6 j i with 288 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
faujasite Fd3-6315Fd3-Z203 g14 e5 ccF1863 Zeolite-FAU', Linde-XCommon (Si, Al)O2-framework in g6 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules. Slight deviation from Fd3-m (Zeolite-FAU), caused by ordering of Al.
faujasite Fd3-6315Fd3-Z203 g14 e6 ccF1180 Zeolite-FAU', Linde-XCommon (Si, Al)O2-framework in g6 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules. Slight deviation from Fd3-m (Zeolite-FAU), caused by ordering of Al.
faujasite Fd3-6315Fd3-Z203 g6 e2 ccF622 Zeolite-FAU', Linde-XCommon (Si, Al)O2-framework in g6 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules. Slight deviation from Fd3-m (Zeolite-FAU), caused by ordering of Al.
faujasite Fd3-6315Fd3-Z203 g7 e4 ccF678 Zeolite-FAU', Linde-XCommon (Si, Al)O2-framework in g6 with 576 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules. Slight deviation from Fd3-m (Zeolite-FAU), caused by ordering of Al.
Fe11RuAs543949R3H146 b4 a5hR17
Fe12Zr2P725757P6- k3 j3 e d bhP210.350.46
Fe12Zr2P725757P6- k3 j3 f c ahP210.350.46 Mg2(Mg.5Ni.5)3Ni9P7
Fe13Ge3150584Pm3-m g d c b acP14
Fe13Ge3150584Pm3-m g d c b acP16
Fe14Nd2B44294P42/MNM k2 j2 g f2 e ctP681.251.55
Fe14Nd2B44294P42/MNM k2 j2 g2 f e ctP681.251.55
Fe2Ga2S532551R3-MH166 c4 ahR91113.4
Fe2Ga2S532551R3-MH166 c4 bhR91113.4
Fe2N-zeta81732Pbna60 d coP12
Fe2Ni9Se815080I4-m2119 i3 g f ctI38
Fe2P70115P6-2M g f c bhP90.490.66 SB: C22InMg2-type has lower c/a
Fe2P70115P6-2M g f d ahP90.490.66 SB: C22InMg2-type has lower c/a
Fe2Si(HT)100094P3-M1 d2 b ahP61.101.40
Fe2SnS41313I41/AZ88 f c btI281.251.60
Fe2SnS41313I41/AZ88 f d atI281.251.60
Fe2Tb2351R3-mH166 e c bhR6
Fe2TiO536183Cmcm63 f3 c2oS32 pseudobrookite
Fe2V18.5S.5O46 (H2O)36410238Im3-m k2 j h2 f e2 b acI352
Fe3(PO4)2(H2O)3302Pbna60 d7 c aoP76
Fe3(PO4)2(H2O)3302Pbna60 d7 c aoP80
Fe3(PO4)2(H2O)3302Pbna60 d7 c aoP81
Fe3(PO4)2(H2O)3302Pbna60 d7 c aoP84
Fe3(PO4)2(H2O)3302Pbna60 d7 c aoP88 phosphoferrite
Fe3(PO4)2(H2O)430621P121/a114 e8 amP50.81
Fe3(SO4)4(H2O)1415207P1-2 i18 aaP65
Fe3B7O13Cl42496R3CH b7 a3hR482.202.75 congolite
Fe3C36346Pbnm NO3d c2oP161.301.65 Cementite, SB: D0(11)
Fe3C36346PNMA NO3d c2oP160.801.00 Cementite, SB: D0(11)
Fe3N80930P6322 g chP8 siderazot
Fe3S442537R3-MH c3 bhR79.410.4
Fe3Sc2Si541834P4/MNC h3 g e dtP400.450.62 Mn3U2Si5
Fe3Th7107715P63MC c3 ahP200.550.80 Ru7B3, SB: D10(2)
Fe3Th7107715P63MC c3 bhP200.550.80 Ru7B3, SB: D10(2)
Fe3TlTe3100352P63/M h2 chP140.400.52 Mo3TlSe3
Fe3TlTe3100352P63/M h2 dhP140.400.52 Mo3TlSe3
Fe3W3C76759FD3-MS227 f e d ccF112Fe1.2: 12: Fe6W6; W: 12: C2Fe6W4; C: octahedron: W6CFe3W3, eta-carbide, SB: E9(3)Fused gamma brass- and Ti2Ni-type (additional central atom) nested polyhedra units.
Fe4LaP121286IM3- g c acI344-a, 6-a, 20-dLaFe4P12, Skutterudite
Fe4Si2Zr87172P42/MNM i g btP140.4500.638Fe: 13: Si3+1Fe6Zr3; Si: 11: Fe6+2Zr3; Zr: 18: Si6Fe12CaCu4P2Pairs of infinite columns of face-linked Si(Zr2Fe6) trigonal prisms sharing the Zr edge. Infinite strings of edge-linked Fe4 tetrahedra.
Fe6Ga6Sc103465Immm k h g f e aoI26.56.64
Fe6Ge6Li41384P6-2m191 o k j i h e c bhP39
Fe6Ge6Mg41796P6/MMM i e d c ahP131.401.80 Fe6Ge6Hf, Fe3Mn4Ge6
Fe6Ge6Mg41796P6/MMM i e d c bhP131.401.80 Fe6Ge6Hf, Fe3Mn4Ge6
Fe6W6C76761Fd3-mZ227 f e c bcF84
Fe7W6103694R3-MH g c3 ahR1345.50 Co7Mo6, SB: D8(5)
Fe7W6103694R3-MH h c3 ahR1345.50 Co7Mo6, SB: D8(5)
FeAl2(SO4)4(H2O)2296598P121/c114 e45mP356
FeAs241805Pmnn g aoP61.52.1
FeAs241805Pnnm g aoP60.480.67
FeB30449PNMA62 c2oP80.600.88 TiB, TiSi, YNi, SB: B27=B15
FeBiO328622R3MH160 b a2hR511.4
FeF316671R3-CR167 e bhR8
FeGa2S4100706P3-M1 d3 ahP7
FeGa2S4100706P3-M1 d3 bhP7
FeGa3103448P42/mnm j f ctP16.91.15 CoGa3, IrIn3
FeGa3103448P42/mnm j g ctP16.91.15
FeGe(OH)627650P42/nS86 g3 d ctP56 stottite
FeHf2Dx202351Fd3-mZ227 i g2 f e2 dcF229
Felsoebanyaite85074P12114 a46mP164 Al4SO4(OH)10(H2O)4
FeNb3Se1042177P121/m111 e7mP1411.2
FePS327307C12/m112 j i2 gmS20
FePSe356890R3-H f c2hR102.93.2
ferrierite35082Immm o3 n6 m2 k i g f e2 coI166 zeolite GISCommon (Si, Al)O2-framework in o3 n3 m2 l k g f with 108 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
ferrierite(oP)75475Pmnn58 h12 g f eoP108 Common (Si, Al)O2-framework in h12 g f e with 108 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
FeS(P6-2c)53497P6-2c190 i h f ahP24
FeS2(cP12)53935PA3- c acP12Fe: octahedron: S6; S: tetrahedron: SFe3pyrite, SB: C2Isopointal to CO2(cP12); S-S-dumbbells: S-S=2.18
FeS2(cP12)53935PA3- c bcP12Fe: octahedron: S6; S: tetrahedron: SFe3pyrite, SB: C2Isopointal to CO2(cP12); S-S-dumbbells: S-S=2.18
FeS2(oP6)26756PMNN g aoP61.201.5 marcasite, SB: C18
FeS2(oP6)26756Pnnm g aoP60.670.86 marcasite, SB: C18
FeSb2S416908PNMA62AB2X4c7oP28 berthierite
FeSi36188P213 a2cP813-aFersilicite, SB: B20=B28Isopointal with CO-type
FeSi224360P4/mmm h atP3
FeSi2(oS48)23408Cmca64 g2 f doS48.77.83
FeSiTi41157Ima246 c2 b4 aoI36
FeSO4(H2O)734380P121/c114 e12 d amP108
FeTi4S853534C12/m112 j3 i6 d amS52.91
FeTiO329209R3-H f c2hR102.403.00 ilmenite, SB: E2(2)=G4aristotype is Al2O3.
FeTiO329209R3-R f c2hR10 ilmenite, SB: E2(2)=G4
FeU2S541899C12/c115 f3 e dmS32.42.52
FeYb2S423378Fd3-mZ227 e d c acF56
FeZrGa2103457Pnma62 d3 c5 boP48
Fleischerite4295P6-2c i2 h2 f3 ahP70
Ga(CN)384969Pm3-m e acP7
Ga21Ho4Ni10103756C12/m112 i17 bmS70
Ga2Gd3103720I4/MCM m l h2 g c atI801.151.45
Ga2HfNi412753I4mm107 e d4 c3 b a2tI80
Ga2Mg5103794Ibam72 j2 f boI28
Ga2S334647C1c19 a5mS20.55.65
Ga3Pt5103927Cmmm65 j h e b aoS16
Ga4(Ga, Ge)2O10H.7739343Pbnm d c5 aoP34
Ga41V81803R3-H f7 d c b ahR490.951.20
Ga41V81803R3-H f7 e c b ahR49.951.2
Ga4HfNi2103737I23 f5 e2 c3cI168
Ga4Ni3103864Ia3-d g f acI112
Ga4Ti5103997P63/MCM f2 c ahP180.600.80
Ga4Ti5103997P63/MCM g2 d bhP180.600.80
Ga5Ho2Ni5103754P6/MMM l k f d ahP180.400.60 Al3Ni2Y, Co3Ga2Ce, Co3Ga2Y
Ga5Ho2Ni5103754P6/MMM m j g c bhP180.400.60 Al3Ni2Y, Co3Ga2Ce, Co3Ga2Y
Ga6Pu103942P4/NBMS m g ctP141.151.45
Ga9Mg4Na103796P6/mmm q o2 n5 m l j h e2hP84
Gadolinite4338P121/c114 e8 amP34
GaGeLi25310P63mc b2 ahP61.451.80 LiZnSb
gainesite31199I41/amdZ141 h5 e b atI50
GaMo4S8(HT)41935F4-3M e3 acF52 GaMo4S8: cF52, F4-3m, 8.5-11, e3 a, 41935
GaS59P63/mmc194 f2hP8
GaSe73387P6-m2187 i2 h ghP8
Gd13Zn58104155P63mc186 d4 c14 b3 a2hP142
Gd2Si344384Imma74 e3oI10
Gd2Si344384Imma74 e3oI11 TbSi2-x
Gd2Si344384Imma74 e3oI12 TbSi2-x
Gd3Ni8Sn16104100Im3- g3 c acI82
Gd3NiSi215534Pnma c6oP24
Gd7Ni10Y3104104P121/m111 e6mP120.450.6
GdFeO316644PBNM ABX3d c2 aoP201.301.60 CaTiO3(orh), YFeO3, SrZrS3, UCrS3Aristotype is CaTiO3, perovskite
GdFeO316644PBNM ABX3d c2 boP201.301.60 CaTiO3(orh), YFeO3, SrZrS3, UCrS3Aristotype is CaTiO3, perovskite
GdFeO316644PCMN ABX3d c2 boP200.921.18 CaTiO3(orh), YFeO3, SrZrS3, UCrS3Aristotype is CaTiO3, perovskite
GdFeO316644PMCN ABX3d c2 boP200.640.84 CaTiO3(orh), YFeO3, SrZrS3, UCrS3Aristotype is CaTiO3, perovskite
GdFeO316644PNAM ABX3d c2 aoP201.201.55 CaTiO3(orh), YFeO3, SrZrS3, UCrS3Aristotype is CaTiO3, perovskite
GdFeO316644PNMA d c2 aoP200.851.06 CaTiO3(orh), YFeO3, SrZrS3, UCrS3Aristotype is CaTiO3, perovskite
GdFeO316644PNMA d c2 boP200.851.06 CaTiO3(orh), YFeO3, SrZrS3, UCrS3Aristotype is CaTiO3, perovskite
GdSn3104135Amm238 b4 a4oS15
GdSn3104135Amm238 b4 a4oS16
Ge(HP)16570P43212 b atP121.0501.3
Ge2LaPt253666P1211 a5mP10
Ge3Rh553891Pbam h2 g c aoP16.62.83
Ge4S6(CF3)462223Fd3-mZ227 g f e2cF208
GeAs17033I4/mmm107 a2tI4
GeK43515P4-3n i2 e2cP64
GePbS32090P121/c114 e5mP20
GeRh3Y276345R3-mH166 d c ahR6
GeS38165Pbnm c2oP80.750.90 herzenbergite, SnS, SB: B16=B29
GeS38165Pcmn c2oP82.252.7
GeS38165Pmcn c2oP82.603.30 herzenbergite, SnS, SB: B16=B29
GeS38165Pnam c2oP80.300.40 herzenbergite, SnS, SB: B16=B29
GeS38165Pnma c2oP80.350.50 herzenbergite, SnS, SB: B16=B29
GeTe56042R3-mH166 e d b ahR8
gillespite27597P4/nccS130 g3 f c btP64
gismondine6313I41/amdZ141 i2 h g f btI116.831.05 zeolite-PCommon (Si, Al)O2-framework in h g f with 48 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
gismondine mcl27324P1121/a e19mP104
gmelinite33668P63/mmc194 l k6 j2 i h fhP148.7.78 Common (Si, Al)O2-framework in l k2 j i with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
goetzenite28002P1-2 i14 b aaP32
gonnardite29522I4-2d122 e4 d3 atI1040.450.54 TetranatroliteCommon (Si, X)O2-framework in e3 d a with 60 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
graphite(2H)53781P63/MMC c bhP4
graphite(2H)53781P63/MMC d bhP4
graphite(3R)53780R3-MR166 chR2
H3W12PO40(H2O)692217Pn3-mS224 k4 h e acP148
H3W12PO40(H2O)692217Pn3-mS224 k4 h e acP149
harmotome2318P121/m111 f13 e6 dmP87 phillipsite, zeolite-PHICommon (Si, Al)O2-framework in f11 e2 with 48 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
heulandite25029C12/m112 j13 i6 h2 g dmS185 Ca(Al2O7O18)(H2O)6, clinoptiliteCommon (Si, Al)O2-framework in j12 i h g with 108 atoms/cell, great variability of additional enclosed counter-cations and absorbed molecules
heulandite25029C12/m112 j14 i6 h g d amS181 Ca(Al2O7O18)(H2O)6, clinoptiliteCommon (Si, Al)O2-framework in j12 i h g with 108 atoms/cell, great variability of additional enclosed counter-cations and absorbed molecules
heulandite Cm27526C1m18 b30 a15mS186 zeolite-HEU'Common (Si, Al)O2-framework in b26 a2 with 108 atoms/cell, great variability of additional enclosed counter-cations and absorbed molecules
Hf3Ni2Si3200067Cmcm63 f3 c2oS32
Hf9Mo4B23788P63/MMC k h2 c ahP280.851.15
HfGa2103727I41/amd141 e3tI24
HfO287456PMNB62 c3oP12
HfO287456PMNB62 c3oP12.42.5
Hg53771R3-mH166 ahR11.52.5
Hg2.9SbF635096I41/amdZ141 h4 g e btI401.51.8
Hg2K104303IMMA h eoI121.502.00 CeCu2
Hg2K104303IMMA i eoI120.951.25 CeCu2
Hg3NbF662027P3-1M k d b ahP101.371.70
Hg5Mn2104324P4/mbm127 i h dtP14 Li2Sn5, Pd2Hg5, V2Ga5
HgCl36195I4/MMM e2tI82.102.70 calomel, Hg2Cl2, SB: D31
HgMn104323P4/MMM c btP20.901.15 TiCu(delta)isopointal with AuCu-type
HgMn104323P4/MMM d atP20.901.1514-bTiCu(delta)isopointal with AuCu-type
HgNa104326Cmcm63 g c2oS16
HgNb6Br16(H2O)1850174Fd3-mZ227 g2 f2 e bcF616
HgO40316PNMA c2oP80.510.55
HgPbP1429260Pnma62d5 c6oP64.8.95
HgSO4.H2O15404Pnma62d c5oP36
Hilairite20257R32H155 f4 e d c b ahR43
Hilairite20257R32H155 f4 e2 d c b ahR48
Hilairite20257R32H155 f4 e2 d c b ahR49
Ho10In20Ni9104414P4/nmmZ129 j3 i4 h g c2 atP78
Ho11Ge1043052I4/MMM n2 m i h2 e2 dtI841.301.60 Yb11Sb10, Cr5Sc7Si9
Ho11Ge1043052I4/mmm n2 m j h2 e2 dtI84
Ho2Rh12As743971P63/m176 h3 e dhP21
Ho4C783381P121/c114 e5 amP22
Ho6Mo4Al43105153P63/mcm l k3 j i h g2 bhP106
HoAl3Pb2O867819Pn3-mS224 k f e2 bcP56
HoFe6Sn6106584Immm o l2 k j4 i3 h g aoI78
HoFe6Sn6106584Immm o n2 k h4 g3 f e aoI78
Hureaulite10275C12/c1 f14 emS156
Hydrotalcite6296R3-mH166 h c2 ahR76.58.5 Mg4Al2(OH)12 CO3(H2O)3Variable M(2+)/M(3+) ratio
In53777I4/MMM atI21.2581.783In: cuboctahedron: In4+8SB: A6Aristotype is Cu; Cuboctahedral coordination splitted into 4+8.
In2Mo15Se1926546R3-CH f4 e2 c3hR725.207.00
In2Mo15Se1926546R3-CR f4 e2 c3hR7211
In2Se317008R3mH160 a5hR568
In2ZnS4(disord.)78345R3-MH166 c3 ahR78.010, MgAl2Se4, MnIn2Se4
In2ZnS4(hR14)65725R3MH a14hR1416.0024.00
In2ZnS4(hR7)16974R3MH a7hR78.0012.00
In3Li1351963Fd3-mZ227 f e d c b acF128
In3Mo15Se1926386P63/m176 i4 h3 f2 ehP74
In3Te4(HP)44655R3-mH c3 ahR78.610.6
In3Yb859575R3-cH167 f2 e c3 bhR44 Al3Au8, Hg3Na8
In41K17106707Fd3-mZ227 g4 e2 b acF464
In5Nd4S13200616Pbam h6 g4 c aoP44
In6LaNi351955PmmnS59 e3 b2 a2oP20
In9Pt1359501C12/m112 j2 i4 g f d cmS44
InMg251974P6-2M g f b ahP90.350.50 SB: C22Fe2P-type has greater c/a
InMg251974P6-2M g f c bhP90.350.50 SB: C22Fe2P-type has greater c/a
InMg351976R3H146 b4 a4hR1645.5
InNbS274702P6-m2187 h b ahP4
InNi259437P63/MMC d c ahP61.101.55 Ni2Ge(HT), Ni2Si(theta), SB: B8(2)
InPt2Y59505P63/MMC f c ahP81.752.20 GdPt2Sn, CeLi2Ge
InTaS274703P6-m2187 g d ahP4
Ir3Ge753656IM3-M f e dcI40 Ir3Sn7, Co3Al3Si4, SB: D8(f)
Ir4Sc1110438Fm3-m f2 e d b acF120
Ir4Sc1110438Fm3-m f3 d b acF120
IrTa104565Pmma j i f eoP12.3.4
IrYGe276509Immm71 l2 i h2 goI32 IrNdGe2
IrYGe276509Immm71 l2 j i2 goI32 IrNdGe2
jahnsite6205P12/a113 g15 f e2 d c amP108 CaFe2Mg2Mn(PO4) 4(OH)2(H2O)8
jarlite40133C12/m112 j9 i5 d b amS102 Na2MgSr6AlF32(OH)2
K14Fe4O1367170P21/b1114 e15 dmP62
K19Pb8O4(OH)3401435Fm3-m i f e2 b acF136
K2As2F8O29027P121/n114 e7mP282.42.8
K2Ca(SO4)2(H2O)26829P121/m111 f3 e8mP32 syngenite
K2CuFe(CN)628654F4-3m f2 d c b acF64
K2GeTeO640422Fd3-mZ227 f e ccF80
K2GeTeO640422Fd3-mZ227 f e dcF80
K2Mg(SO4)2(H2O)461478C12/m112 j4 i7 g d amS100 leonite
K2Mg(SO4)2(H2O)461478C12/m112 j6 i6 g b amS100 leonite
K2Mg(SO4)2(H2O)461478C12/m1 j6 i6 g d amS100
K2Mg(SO4)2(H2O)626772P121/a114 e9 amP62 picromerite
K2Mg(SO4)2(H2O)626772P121/a114 e9 amP78
K2Mg2(SO4)316702P213 b5 a4cP108K1: 15: O15; K2: 9+3: O9+3; Mg1.2: octahedra: O6; S: tetrahedron: O4; O1: 5: SMgK3; O2: 3+1: SMgK1+1; O3: 4: SMgK2; O4: langbeinite
K2Mg2(SO4)316702P213 b5 a4cP76K1: 15: O15; K2: 9+3: O9+3; Mg1.2: octahedra: O6; S: tetrahedron: O4; O1: 5: SMgK3; O2: 3+1: SMgK1+1; O3: 4: SMgK2; O4: langbeinite
K2MgF433519I4/MMM e2 c atI142.7813.940K: 9: F9; Mg: octahedron: F6; F1.2: octahedra: F1: K1+4Mg; F2: Mg2K4K2NiF4, Ca4Sb2O, Eu4As2O, Na4I2OIGS of NaCl- and CaTiO3-type slabs (1: 1). NiF6 octahedra share edges to form infinite layers.
K2MgF433519I4/MMM e2 c atI302.7813.940
K2MgF433519I4/MMM e2 c btI142.7813.940
K2MnF676273P63mc c2 b2 ahP181.591.68
K2MnS265453Ibam72 j2 aoI20
K2MnS265453Ibam72 j2 boI20
K2Mo3Se1854262P12114 a23mP46
K2NaAl3F1240178P121/m111f4 e8 d cmP36
K2NaAlF66027FM3-M e c b acF112"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2NaAlF66027FM3-M e c b acF30"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2NaAlF66027FM3-M e c b acF37"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2NaAlF66027FM3-M e c b acF38"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2NaAlF66027FM3-M e c b acF39"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2NaAlF66027FM3-M e c b acF40"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2NaAlF66027FM3-M e c b acF44"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2NaAlF66027FM3-M e c b acF88"K: cuboctahedron: F12; Na, Al: octahedra: F6; F: octahedron: K4NaAl (+4F)"Ba2CaWO6, elpasolite
K2Nb3Se644673P6-m2187 h g2 f chP7
K2Ni(CN)424099P121/c114 e5 amP22
K2Pb(SO4)276891R3-mH166 h c3 ahR133.24.2 palmierite
K2Pd3S441885Fddd70 h f2 aoF72
K2PtCl423998P4/MMM j e atP15.57.64
K2PtCl423998P4/MMM j e atP7.57.64
K2PtCl636304FM3-M e c acF36Pt: octahedron: Cl6; K: cuboctahedron: Cl12; Cl: tetrag. pyramid: PtK4 (+8Cl)Gd2MnGa6, K2PtH6, K2TeBr6, Sr2IrH5, Sr2RuH6, K2TeBr6(alpha), SB: H61Isolated PtCl6 octahedra.
K2PtCl636304FM3-M e c acF68Pt: octahedron: Cl6; K: cuboctahedron: Cl12; Cl: tetrag. pyramid: PtK4 (+8Cl)Gd2MnGa6, K2PtH6, K2TeBr6, Sr2IrH5, Sr2RuH6, K2TeBr6(alpha), SB: H61Isolated PtCl6 octahedra.
K2PtS226258Immm h f aoI10
K2S2O616661P321 g3 f e d2 chP30
K2S31263Cmc2136 b a3oS20.951.1
K2SnO324131Pcmn62 d2 c2oP24
K2SO360762P3-M1 i d2 b ahP121.151.35
K2SO4(alpha)31535P63/MMC d c ahP141.31.66
K2SO4(alpha)31535P63/MMC k h d c ahP141.31.66
K2SO4(beta)56102Pmcn62d c5oP60 Ba2SiS4, K2ZnH4, (NH4)2WS4
K2SO4(beta)56102Pnma62AB2X4d c5oP28 Ba2SiS4, K2ZnH4, (NH4)2WS4
K2Te32453Pnma62 d c3oP20
K2UF626193P6-2M g f d ahP9.5.65
K2Zn(CN)414368Fd3-mZ227 e2 d acF88
K2ZrSi3O924446P63/M i h2 f bhP301.301.65 wadeite
K3FeO273215P41212 b2 a2tP241.9502.763K1: nonlinear O2 (+K8Fe3); K2: copl. square: O4 (+2K); Fe: linear O2 (+3K); O: octahedron: Fe(K1)(K2)4 Linear O-Fe-O units. Fe-O=1.77
K3Na(SO4)226018P3-M1 i d3 b ahP14
K3Pr2(NO3)99319P4132 e5 d3 ccP164
K3Pr2(NO3)99319P4332 e5 d3 ccP164
K3V5O1424068P31M d c4 b2hP220.500.65
K3Zn4O(AsO4)3(H2O)481373F4-3c h g e2 d acF268
K4CdCl615923R3-CH167 f e b ahR2211.35
K4CdCl615923R3-cR167 f d b ahR22
K4Si2326299PM3-N k i d c acP52
K4Si2326299PM3-N k i d c acP53
K4Si2326299PM3-N k i d c acP54 Ba4Ga8Si15, Cs2Sn11, Na4Si23, (Cl2)4(H2O)23
K5Sb3Sn57401P121/n1 e9mP36 KNa4Sb3Sn
K6HgS447218P63MC c3 b2hP220.660.90
K6LiFe24S26Cl10398PM3-M m h g f e b acP58 djerfisherite
K6Sn2Te610109P121/c114 e7mP28.951.05
K6U4O15202328Im3-m e d c b acI38
K7NbAs4380109Pmn2131 b3 a6oP24
K8In11370002R3-cH167 f2 e c2hR384.55.5
K9NaTl1354243Im3- g e c acI46
K9U6BiO2466528Pm3-m h g f e d c b acP40
KAl(SO4)2(H2O)1229283PA3- d3 c2 b acP192K, Al: octahedra: K: (O3)6; Al: (O4)6; S: tetrahedron: (O1)(O2)3; O1: S; O2: S +(O3)(O4); O3: K + (O2)(O4); O4: Al +(O2)(alum-type, SB: H42
KAl(SO4)2(H2O)1229283PA3- d3 c2 b acP208K, Al: octahedra: K: (O3)6; Al: (O4)6; S: tetrahedron: (O1)(O2)3; O1: S; O2: S +(O3)(O4); O3: K + (O2)(O4); O4: Al +(O2)(alum-type, SB: H42
KAl(SO4)2(H2O)1229283PA3- d4 c3 b acP192K, Al: octahedra: K: (O3)6; Al: (O4)6; S: tetrahedron: (O1)(O2)3; O1: S; O2: S +(O3)(O4); O3: K + (O2)(O4); O4: Al +(O2)(alum-type, SB: H42
KAl(SO4)2(H2O)1229283PA3- d5 c4 b acP1924-a, 6-a; 1#aalum-type, SB: H42
KAl(SO4)2(H2O)1229283PA3- d7 c2 b acP192K, Al: octahedra: K: (O3)6; Al: (O4)6; S: tetrahedron: (O1)(O2)3; O1: S; O2: S +(O3)(O4); O3: K + (O2)(O4); O4: Al +(O2)(alum-type, SB: H42
KAl(SO4)2(H2O)1229283PA3- d8 c3 b acP192K, Al: octahedra: K: (O3)6; Al: (O4)6; S: tetrahedron: (O1)(O2)3; O1: S; O2: S +(O3)(O4); O3: K + (O2)(O4); O4: Al +(O2)(alum-type, SB: H42
KAl3(SO4)2(OH)624157R3-MH h2 d c2 ahR262.22.8 alunite
KAl3(SO4)2(OH)624157R3-MR h2 d c2 ahR2611 alunite
KAlP2O72888P121/c1ABC2X7e11mP4411.2
KAlSi3O836234C12/m112 j5 i2 gmS51
KAlSi3O836234C12/m112 j5 i2 gmS52 sanidine
KB3H365507Fm3-m e2 ccF56
KBi6IO9408652Ia3-d h g2 f b acI272
KBO216005R3-CH e4hR24 NaBS2, F5(13)
KCuO215095Cmcm f c2oS161.01.5
KCuZrS380624Cmcm63 f c3 aoS24
KCuZrS380624Cmcm63 f c3 boS24
keatite34889P41212 b4 atP3611.3
keatite34889P43212 b4 atP3611.3
Keggin molecule413185Pm3-m m j2 i g e c b acP113
KFeS215557C12/c115 f e2mS16
KGa320664I4-m2119 i2 f b atI24
KH3(SeO3)29677Pbcn d4 coP48
KMg2Al3(Al2Si10O30)202732P6/MCC m3 l f c ahP961.251.60 osumilite
KMgCl3(H2O)69264Pbnn52 e14 d4 coP276 carnallite
KN324007I4/mcm140 h d atI16
KNa3Al4Si4O1627584P63 c8 b3 ahP560.570.95 nepheline
Koritnigite100581P1-2 i28aP80
KOsF627664R3-H f b ahR8.91.5
KOsF627664R3-R f b ahR8
kotoite24036Pnnm58 h g2 f aoP22
KPO326148Pnma62 d c3oP20
Krautite100543P12114 a28mP80 MnAsO3OHH2O
KSb2BO633505I4-3d e3 ccI160
KSbO341203Pn3-S201 h g f e ccP60
KSe2V3O1281231P63 c5 b2 ahP361.451.78
KSnAs40815P63MC b2 ahP62.63.5
KTiPO56199Pn21a a16oP64.48.52
KTiPO56199Pna21 a16oP64.79.85
Kyanite16970P1- i16aP32.75.81 Al2SiO5(aP32)
La104657P63/MMC c ahP42.803.60 Nd(alpha), SB: A3'
La104657P63/MMC d ahP42.803.60 Nd(alpha), SB: A3'
La2Fe8Ti12O38100554R3-H f9 c2 b ahR591.802.25 davidite
La2Fe8Ti12O38100554R3-R f9 c2 b ahR59 davidite
La2Mn22C332111I41/amd141 i d c b atI53
La2Mn22C332111I41/amd141 i d c b atI54
La2Ni3450Cmca64 f e aoS20
La2Ni5B463501C12/m112 j i3 dmS22
La2O324693P3-M1 d2 ahP51.381.75 Ce2O3, Mg3As2, Mg3Sb2, SB: D52
La2O324693P3-M1 d2 bhP51.381.75 Ce2O3, Mg3As2, Mg3Sb2, SB: D52
La2S315151Pnma A2X3c5oP201.852.3 Gd2S3, Cr3C2
La2Sb42733I4/MMM e2 ctI123.2804.646La1: cuboctahedron: La4+4Sb4; La2: 13+4: Sb5La8+4; Sb: monocapped sq. antiprism: La9Ca2AsIGS of BaAl4- and W-type slabs.
La2SnS52312Pbam h2 g c aoP16.31.4
La3In2O621024Pbam h5 g5 d aoP44
La3InS630510P2121218 c9 b aoP40
La3MnS62072C1m18 b19 a17mS104
La3NbO7(oS)10058Cmcm63 h g2 c b aoS44
La4Ge3S122046R3CH b6 ahR380.350.50
La6Ni6P172242I4-3m g e d c acI58
LaB2C223300P42/MMC m k etP101.902.30 YB2C2
labuntsovite87544C12/m112 j9 i4 h g2 f cmS120 (Na,K)10.7Ti8Mn.4Si16O53 (OH)3(H2O)9
LaCoB5O104235P121/n114 e17mP6811.5
LaF3(P63mc)27089P63cm c3 b ahP24
LaI83678P63/MMC c ahP422.8
lamprophyllite20549C12/m1 j4 i5 h b amS61
lamprophyllite20549C12/m1 j4 i5 h b amS62
lamprophyllite20549C12/m1 j4 i5 h b amS63
lamprophyllite20549C12/m1 j4 i5 h b amS64
LaPtSi27224I41MD a3tI123.103.80
LaRh3B261414P6/mmm191 j i h g e2 c ahP17
LaRu3Si2100785P63/m176 h f bhP12
LaS21435Pcmn62 d2 c2oP24
LaSi408030Cmcm f c2oS161.01.5
Laueite23819P1-2 i10 g b aaP41 Fe2Mn(PO4)2 (OH)2(H2O)8
Laueite23819P1-2 i10 g c aaP41
Laumontite63502C12/m112 j10 i4 gmS116 zeolite-LAU
Laumontite Am16535A11m8 b18 a6mS98 zeolite-LAU'
lavenite20377P121/a114 e15mP62
Lawsonite34066Cmcm63 h f3 d c3oS76
lazulite26496P121/c114 e7 amP34 MgAl2(PO4)2(OH)2
leucophosphite22048P121/n114 e16mP100.951.05
leucophosphite22048P121/n114 e16mP84 K(FePO4)2OH(H2O)2
levyne4361R3-mH166 i2 h7 g f c4 bhR103 Common (Si, Al)O2-framework in i2 h3 g f with 54 atoms/(rhombohedral cell), great variability of additional enclosed counter-cations and adsorbed molecules
Li2Eu5O831799C12/m112 i7 bmS30.22.3
Li2O225530P63/mmc f c ahP82.12.80
Li2ThN216232P3- g2 d ahP15.8.91
Li3Fe2(PO4)362244P121/c114 e20mP80
Li3N34280P6/MMM c b ahP4
Li3Pr2(BO3)320217P121/n114 e17mP68
Li4TeO52403P1- i9 c baP20
Li4UF830338Pnma62 d5 c3oP52
Li5La3Nb2O1268251Ia3-d h d c b acI176
Li5Mo9S1249564R3-H148 f4 chR17
Li5Tl210053R3-mH166 c3 bhR7
Li6Ca12Mo4N16O383865I4-3d e2 d c2 bcI164
Li6HoB3O92121P121/c114 e19mP76
Li8IrO661217R3-H f2 c ahR152.72.9
LiAlCl41040P121/a1 e6mP24.5.6
LiAlCl41040P121/c1e6mP241.72
LiAs26472P121/c114 e4mP16
LiBa4Sb3O12202200Im3-m e d c b acI40
LiBaCrF66042P121/c1 AB2X6e9mP361.451.8
LiBaCrF66042P121/c114ABCX6e9mP361.461.78
LiCrS226233P3-M1 d b ahP41.72.0
LiFeO2-alpha31149I41/amdS141 e b atI1622.5
LiGaSiO465125R3H146 b14hR42.6.8 aristotype is Be2SiO4 (phenakite)
LiMnAs26459P4/nmmZ129 c b atP61.351.55
LiNbGeO540536Pbnm62 d c5 aoP32
LiNbO328294R3CH161 b a2hR1012.75
Linde-N20645Fd3-Z203 g39 f e9cF3876 Common (Si, Al)O2-framework in g20 with 640 atoms/(rhombohedral cell), great variability of additional enclosed counter-cations and adsorbed molecules
LiSbF623924R3-H148 f b ahR82.53
LiSbF623924R3-R f b ahR8
LiSbO324051Pnna52e d c2oP20
LiSn104782P12/m110 n m e amP6 (Nb, Rh)Rh
LiSn104782P12/m110 n m f amP6 (Nb, Rh)Rh
LiSr4B3O9170861Ia3-d h g2 f b acI272
LiTiO248128FD3-MS227 e d ccF64Li, Ti, O: octahedra: Li: O6; Ti: O6; O: Li3Ti3Ca2NH, LiZrS2, CuZrS2Close packed O layers in c stacking, Li and Ti in octahedral voids.
LiTm2Ge457075P1121/m11 e4mP7
LiYSn32041P63mc c3 b2 ahP24.72.9
lomonosovite34069P1-2 i23aP462.453
Lu3Co8Sn455544P63mc c4 b2 ahP30
ludwigite30653Pbam55 h3 g5 c boP36
LuNiSn220790Pnma62NOP2c12oP48
LuRh4B432508Ccca68 i6 f aoS108
LuRu4B444440I41/ACDS142 g2 btI721.6932.400Lu: 24: Ru12B12; Ru: 13: B5LuRu7; B: 9: BRu5Lu3 B-B dumb-bells. B-B=1.52. Ru4 tetrahedra are interconnected to form infinite (mutually perpendicular) zigzag chains.
mazzite6258P63/MMC194 l3 k3 j3 i h4 g f e chP211.38.47 zeolite-MAZ
merlionite100419Immm71 o5 n6 m2 l j i h f e c boI162 zeolite-MER
metasillimanite92636Pbnm d c5 aoP32.921.15
metatobernite20594P4/nmmZ129 j2 i2 c7 b atP82 Cu(UO2)2(PO4)2 (H2O)8
Metavariscite15834P121/n114e8mP48 AlPO4(H2O)2(mP)
Mg53767P63/MMC chP21.501.90 SB: A3Ideal c/a=1.633 for hcp; c/a(Zn)=1.86 deviates clearly >from the ideal value
Mg53767P63/MMC dhP21.501.90 SB: A3Ideal c/a=1.633 for hcp; c/a(Zn)=1.86 deviates clearly >from the ideal value
Mg2PO4F26970P121/c114 e32mP128 wagnerite
Mg2PO4F26970P121/c114 e32mP144 wagnerite
Mg2SiO456114PBNM AB2X4, ABCX4d c4 aoP281.121.42 olivine, Mg2GeS4, Mn2GeS4, BeAl2O4 , SB: S1(2)=H12
Mg2SiO456114PBNM AB2X4, ABCX4d c4 boP281.121.42 olivine, Mg2GeS4, Mn2GeS4, BeAl2O4 , SB: S1(2)=H12
Mg2SiO456114PMCN AB2X4, ABCX4d c4 aoP281.521.90 olivine, Mg2GeS4, Mn2GeS4, BeAl2O4 , SB: S1(2)=H12
Mg2SiO456114PMNB AB2X4, ABCX4d c4 aoP280.710.88 olivine, Mg2GeS4, Mn2GeS4, BeAl2O4 , SB: S1(2)=H12
Mg2SiO456114PNAM AB2X4, ABCX4d c4 aoP280.520.67 olivine, Mg2GeS4, Mn2GeS4, BeAl2O4 , SB: S1(2)=H12
Mg2SiO456114PNMA AB2X4, ABCX4d c4 aoP280.390.6 olivine, Mg2GeS4, Mn2GeS4, BeAl2O4 , SB: S1(2)=H12
Mg2SiO456114PNMA AB2X4, ABCX4d c4 boP280.390.6 olivine, Mg2GeS4, Mn2GeS4, BeAl2O4 , SB: S1(2)=H12
Mg3Ca(CO3)4201729R32H155 f e d3 b ahR20.731
Mg3Ca(CO3)4201729R32H155 f e3 d b ahR20.731 huntite
Mg3Si2O5(OH)481101C1m18 b5 a4mS361.31.5 Lizartite 1M
Mg3Ti(BO3)2O230652Pnma62 c7oP28.33.5
Mg5(SiO4)2F215180P121/c114 e8 dmP35 Chondrodite
Mg5(SiO4)2F215180P121/c114 e8 dmP36 Chondrodite
Mg5(SiO4)2F215180P121/c114 e8 dmP37 Chondrodite
Mg5(SiO4)2F215180P121/c114 e8 dmP38 Chondrodite
Mg6MnO882182Fm3-m e d c acF60
Mg9(SiO4)4F210300P21/b1114 e15 dmP62
Mg9(SiO4)4F210300P21/b1114 e15 dmP63
Mg9(SiO4)4F210300P21/b1114 e15 dmP64 Clinohumite
MgCl2(H2O)626744C12/m112 j i2 amS42 bischofite
MgCO3(H2O)32758P121/n114 e8mP56
MgNb2O685008Pbcn d4 coP36.30.42 columbite
MgNi2104838P63/MMC h g f2 ehP242.903.80 Laves-phase 4H, SB: C36
MgSeO3494Pnma d c2 aoP20.75.98
MgSeO3494Pnma62 d c2 boP20.75.98
MgSiO377344Pbca61 c10oP80.24.33
MgSn(OH)676927Pn3-Z201 h c bcP56 schoenfliesite
MgSn(OH)6(Pn3-m)25824Pn3-mZ224 k c bcP56 schoenfliesite
MgSO3(H2O)62524R3H146 b3 a2hR23
MgSO4(H2O)416579P121/n114 e10mP72
MgSO4(H2O)52776P1-2 i10 e aaP42 pentahydrite
MgSO4(H2O)616546C12/c115 f11 e amS192 hexahydrite
MgSO4H2O15924C12/c115 f2 e2 bmS36
MgSO4H2O15924C12/c115 f2 e2 cmS36
MgSrSi42457Pnam62 c3oP12.49.65 Differs from Co2Si-type by slightly different axial ratios
MgSrSi42457Pnma c3oP1211.25 Differs from Co2Si-type by slightly different axial ratios
MgV2O586102Cmcm63 f3 c2oS32
MgZn2104897P63/MMC h f ahP121.501.80 Laves-phase 2H, Wfe2, SB: C14=C41
MgZn2 distorted150576P121/m111 e2 amP6
Mitridatite1017A1a19 a75mS372 (CaO)6(FePO4)9 (H2O)9
Mixite70117P63/m176 i2 h6 chP87 BiCu6(AsO4)3 (OH)6(H2O)3variable zeolitic water
Mixite70117P63/m i3 h5 chP86 BiCu6(AsO4)3 (OH)6(H2O)3variable zeolitic water
Mixite70117P63/m176 i3 h5 chP87 BiCu6(AsO4)3 (OH)6(H2O)3variable zeolitic water
Mn(cI58)56133I4-3M g2 c acI58Mn1.2: 16: Mn16; Mn3: 13: Mn13; Mn4: 12: Mn12Mn(alpha), P4, SB: A1229-atom nested polyhedra units consisting of a central atom surrounded by a Mn4 tetrahedron, a Mn(1)12 truncated tetrahedron and a Mn(2)12 cuboctahedron.
Mn(cP20)56134P4132 d ccP20Mn1: icosahedron: Mn12; Mn2: 14: Mn12+2Mn(beta), SB: A13
Mn12Th104986I4/MMM j i f atI260.4750.673Mn1.3: icosahedra: Mn10Th2; Mn2: 14: Mn13Th; Th: 20: Mn20SB: D2(b)IGS of CaCu5- and Zr4Al3-type blocks (1: 1)
Mn17Pr2C259114R3-mH166 h f e d c2hR19
Mn17Pr2C259114R3-mH166 h f e d c2hR20
Mn17Pr2C259114R3-mH166 h f e d c2hR21
Mn17Pr2C259114R3-mH166 h f e d c2hR22
Mn23Th6104987FM3-M f2 d b acF116Mn1: cube: Mn8 (+6Th); Mn2.4: icosahedra: Mn2: Th4Mn4; Mn4: Th3Mn9; Mn3: 13: Th3Mn10; Th: 17: Th4Mn12+1SB: D8(a)Th6 octahedra. IGS of gamma brass-type blocks (centred at Wyckoff position 8(c)) with four additional atoms per cell. IGS of Na16Ba6N- (central atom missing) and W-type blocks, centred at Wyckoff position 4(b) and 4(a).
Mn23Th6104987FM3-M f2 e d acF116 SB: D8(a)
Mn23Th6104987FM3-M f2 e d bcF116Mn1: cube: Mn8 (+6Th); Mn2.4: icosahedra: Mn2: Th4Mn4; Mn4: Th3Mn9; Mn3: 13: Th3Mn10; Th: 17: Th4Mn12+1SB: D8(a)Th6 octahedra. IGS of gamma brass-type blocks (centred at Wyckoff position 8(c)) with four additional atoms per cell. IGS of Na16Ba6N- (central atom missing) and W-type blocks, centred at Wyckoff position 4(b) and 4(a).
Mn2Nd54341P1m16 c3 b3 a3mP12
Mn2O352348IA3- e d acI80Mn1.2: octahedra: O6; O: tetrahedron: Mn4 (+4O)Mg3P2, Yb2S3(theta), bixbyite, sesquisulfide T, SB: D5(3)SB: D5(3)-type;
Mn2O352348IA3- e d bcI80Mn1.2: octahedra: O6; O: tetrahedron: Mn4 (+4O)Mg3P2, Yb2S3(theta), bixbyite, sesquisulfide T, SB: D5(3)
Mn2Y54374I41/amdZ141 d atI12
Mn34Tb4C540783P63/mmc194 k j h g f d bhP43
Mn5Si333713P63/MCM g2 dhP160.600.80 SB: D8(8)D8(8)-type
Mn6Bi(PO4)O851441Fm3-m f2 d b acF80
Mn7FeCl3O1069062Fm3-m h g f e c b acF168
Mn7SiO1266976I41/acdZ142 g3 f e c b atI1601.82.2 braunite
MnBi58806P2221 d2 c b aoP81.251.4
MnCoGe1882PNMA c3oP121.251.66
MnMoO4H2O61077P1-2 i7aP18
MnNb4S842654P63/MMC k h f b ahP261.652.10 MnNb4Se8
MnNd4OSe6391299P63mc c3 b2 ahP24.65.9
MnO220227I4/M h3tI240.2440.345Mn: octahedron: O6; O1: npl. triangle: Mn3 (+11O); O2: copl: triangle: Mn3 (+11O)
MnP30412PBNM c2oP80.480.60 FeAs, NiSi, Sb: B14=B31
MnP30412PMCN c2oP81.501.85 FeAs, NiSi, Sb: B14=B31
MnP30412PNAM c2oP80.540.68 FeAs, NiSi, Sb: B14=B31
MnP30412PNMA c2oP81.001.25 FeAs, NiSi, Sb: B14=B31
MnU6150486I4/mcm140 k h atI28.49.53
Mo2B524282R3-mH166 c3 bhR7
Mo2BC23188Cmcm63 c4oS16
Mo3NiS442401R3-H148 f4 chR16
Mo3Se416316R3-H f2 chR141.051.40
Mo3Se416316R3-R f2 chR1411
Mo3Y2Si476379P121/c114 e4 bmP18
Mo6Ni6C68119Fd3-mS227 f e d acF104
Mo6Ni6C68119Fd3-mS227 f e d c acF104
Mo6PbS876369R3-H f2 c ahR151.101.40 CaMo6S8, GeMo6S8, SnMo6S8
Mo6PbS876369R3-R f2 c ahR1511 CaMo6S8, GeMo6S8, SnMo6S8
MoB24280I41/AMDS141 e2tI165.006.00 SB: B(g)
MoC44987P63/MMC f2 b ahP123.95.0
moganite67669I12/a115 f4 emS361.11.4
MoNi105044P21212119a14oP56
MoNi4105047I4/M h atI100.550.70 SB: D1(a)
MoNiP276283P63/mmc194 f b ahP8
MoO330258Pbnm62AX3c4oP16
MoP43331Cmc21 a3oS121.52
MoPt2105070Immm71 g aoI6
mordenite34891Cmcm63 h5 g5 e d c2 boS152 Common (Si, Al)O2-framework in h5 g5 e d c2 with 144 atoms/cell, great variability of additional enclosed counter-cations and absorbed molecules
MoS2(3R)40081R3MH a3hR356.50
MoS2(4H)24000P63/MMC f chP63.304.50 C7-type, MoS2-family (of stacking variants)
MoS2(4H)24000P63/MMC f dhP63.304.50 C7-type, MoS2-family (of stacking variants)
MoSi226868I4/MMM e atI62.0642.924Mo, Si: rhombic dodecahedron (10+4): Mo: Si10Mo4; Si: Mo5Si5+4AlCr2, SB: C11(b)Close packed MoSi2 layers (Mo atoms form triangle mesh), Mo in neigbouring layers are located over and under centres of edges of Si6 hexagons. Isopointal with CaC2- and CuZr3-type.
MoSi226868I4/MMM e btI62.0642.924Mo, Si: rhombic dodecahedron (10+4): Mo: Si10Mo4; Si: Mo5Si5+4AlCr2, SB: C11(b)C11(b)-type; close packed MoSi2 layers (Mo atoms form triangle mesh), Mo in neigbouring layers are located over and under centres of edges of Si6 hexagons. Isopointal with CaC2- and CuZr3-type.
MoUC216549Pnma62 c4oP161.72.28 CrUC2
Muscovite 1M63123C12/m1 j3 i2 g dmS41
Muscovite 1M63123C12/m1 j3 i2 g dmS42
Muscovite 2M130297C12/c115 f9 emS82
Muscovite 2M130297C12/c115 f9 emS83
Muscovite 2M130297C12/c115 f9 emS84
Muscovite 2M24368C12/c115 f9 emS83
Muscovite 2M24368C12/c115 f9 emS84
Muscovite 3T9650P3112 c8 b a2hP615.156.35
Muscovite 3T9650P3112 c8 b a2hP635.156.35
Na1.55Si1750799Fd3-mZ227 g e c b acF146 Clathrate, framework of tetrahedrally connected Si(or Ge)-atoms (or H2O-molecules) in g e a with 136 atoms/cell. Additional greater atoms or small molecules in cavities of the framework.
Na1.55Si1750799Fd3-mZ227 g e c b acF160 Clathrate, framework of tetrahedrally connected Si(or Ge)-atoms (or H2O-molecules) in g e a with 136 atoms/cell. Additional greater atoms or small molecules in cavities of the framework.
Na21Zn(SO4)10Cl380099I4-3d e5 d c3 acI300
Na2CaMn7(PO4)6100869R3-H148 f38 c5 b ahR240 fillowite
Na2HgO227409I4/MMM e2 atI102.84.15Na: tetrag. pyramid: O5; Hg: colinear O2 (+4Hg); O: 6: HgNa5Sc2BC2, U2IrC2, Na2PdH2Linear O-Hg-O units, Hg-O=1.97
Na2Mg(CO3)29518R3-H148 f c2 ahR1133.7 eitelite
Na2Mn3Cl81846R3-MH166 h d c2hR13
Na2Mn3Cl81846R3-MH166 h e c2hR13
Na2O225526P6-2M h g f ehP12
Na2PtS287219Cmc2136 a5oS20
Na2Re3S676536C12/c115 f10 e2mS88
Na2SiF616598P321 g3 f e d ahP27.52.59
Na2SnF623156P121/c114 e4 amP18
Na2SO34432P3- g d2 b ahP121.11.3
Na2SO427654Fddd70 h f aoF56 thenardite
Na3(CaSrLa)(CO3)522349P63MC d c6 b ahP520.550.70 burbankite
Na3AlF630201P121/c114 e4 b amP201.41.5 cryolite
Na3As26883P63/MMC f c bhP81.552.00 Al3Ir, SB: D0(18)
Na3As26883P63/MMC f d bhP81.552.00 Al3Ir, SB: D0(18)
Na3AsS3645P213 b a4cP28 K3SbTe3
Na3AuS2202329R3-CH167 e c bhR121.92.4
Na3CrCl662035P3-1c i f c ahP201.62.1
Na3H(SO4)28049P121/c114 e12 d amP56
Na3Mg(CO3)2Cl4237Fd3-cZ203 g f e d ccF208 northupite
Na3MnCO3PO4200789P121/m111 f2 e9mP26 sidorenkite
Na3Pt4Ge432038I4-3M c2 bcI22
Na4Al4Si9O24Cl87538I4/M i3 h4 atI820.550.72 marialite
Na5Al3F1425618P4/mnc128 i h g e c b atP44 chiolite
Na6(SO4)2ClF26914Fm3-m f e c b acF72
Na6(SO4)2O411442Fm3-m f e c acF68
Na6Fe2(CO3)4SO420169Fd3-Z203 g f e2 d acF232 (ferro)tychite
Na6Mg(SO4)416607P121/c114 e13 amP54 vanthoffite
Na6Pb3P4Se1691168I4-3d e d2 c2cI116
Na7(AsO4)2F(H2O)1934388Fd3-cZ228 h6 e d c acF2400
Na8Al6Si6O24Cl230263P4-3N i e d c acP46 sodalite, SB: S6(2)
Na8SnSb476496Fd3-mZ227 f e c acF104
NaAl3P2O8 (OH)4(H2O)26300P41212 b9 a2tP1122.403.05 wardite
NaAl3P2O8 (OH)4(H2O)26300P43212 b9 a2tP1122.403.05 wardite
NaAlCl430611P21212119 a6oP240.551.8
NaAlSi3O852343C1-2 i13aP26 albite
NaBaCe2(CO3)4F68245P63/MMC k2 f2 e d c ahP424.005.15 cordylite
NaBaLiNiF672211Fm3-m d c b acF40
NaBaZrF767515Pnma62ABCX7d3 c4oP40
nabokoite68186P4/ncc130 g8 d c3 b atP156
NaCa(Nb2O6)F24445FD3-MS227 f d c acF88
NaCa(Nb2O6)F24445FD3-MS227 f d c bcF88(Na, Ca): 8: F2O6; Nb: octahedron: O6; O: tetrahedron: Nb2(Ca, Na)2 (+4O); F: tetrahedron: (Ca, Na)4 (+6O)pyrochlore, SB: E8(1)
NaCl53815FM3-M b acF24Na: octahedron: Cl6; Cl: octahedron: Na6ClNa, rocksalt, halite, SB: B1Close packed Cl layers in c stacking, Na occupies all octahedral voids. NaCl6 octahedra share edges to form a 3D-framework.
NaCl53815FM3-M b acF8Na: octahedron: Cl6; Cl: octahedron: Na6ClNa, rocksalt, halite, SB: B1Close packed Cl layers in c stacking, Na occupies all octahedral voids. NaCl6 octahedra share edges to form a 3D-framework.
NaClO322395P213 b a2cP20
NaCrS215558R3-MH166 c b ahR44.406.25 FeNaO2, NaTiS2, RbBiS2, AgBiSe2, delafossite-3R
NaCrS215558R3-MR c b ahR411 FeNaO2, NaTiS2, RbBiS2, AgBiSe2, delafossite-3R
NaFeO2(beta)27804Pna21 a4oP16.851.1
NaFeP2O737013P121/c1 ABC2X7e11mP441.21.4
NaKTeO3(H2O)324781P31C c2 b2 ahP30
NaMgOH(SO3)261209P1-2 i12 f daP32
NaN3(beta)24006R3-MH c b ahR43.74.6
NaN3(beta)24006R3-MR166 c b ahR4
NaP14009P212121 a4oP161.51.85 KP
NaPb105156I41/ACDS142 g f etI641.51.83
NaSCN953Pnma62c4oP16
Nasicon high20740R3-CH167 f2 e2 chR402.422.55
Nasicon low62177C12/c115 f9 e2 dmS800.570.6
NaSn2170467C12/m112 j3 i5 gmS48
NaTi4O823879C12/m112 i6 amS26.48.57
NaTl105169FD3-MS227 b acF16Na, Tl: rhombic dodecahedra (8+6): Na: Na4Tl4+6; Tl: Tl4Na4+6Rb2Sb(beta), SB: B32Tl atoms from a tetrahedral 3D-framework. Sequence along body diagonal: -Na-Na-Tl-Tl-. Aristotype is W
natrolite30278Fdd243 b9 aoF184.32.4 zeolote-NATCommon (Si, Al)O2-framework in b7 a with 120 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
NaZn13105173FM3-C i b acF112Na: 24: (Zn2)24; Zn1: icosahedron: (Zn2)12; Zn2: 10+2: (Zn1)(Zn2)9Na2SB: D2(3)Centres of ZnZn12 icosahedra and na atoms form a CsCl-type lattice.
Nb2Se342981P121/m111 e5mP101.31.5
Nb2SnO6202827C12/c115 f4 emS36.3.37
Nb3PbS674694P6322182 i f b ahP20
Nb5As316417Pnma62 c16oP64
Nb6F1525769IM3-M h e bcI42
Nb7P441238C12/m112 i10 d amS44
NbAs16585I41md109 a2tI8
NbO14338PM3-M d ccP6Nb: copl. square: O4 (+8Nb); O: copl. square: Nb4 (+8O) NbO4 squares share single corners to form a 3D-framework.
NbPt354283P121/m111 f2 e4mP16 TaNi3
NbS2(hP6)43697P63/MMC f bhP63.204.40 TaS2
NbSe330002P121/m111 e12mP241.451.65
NbTe214389C12/m112 i4 amS18
NbTe425770P4cc103 d atP10
Nd(B2O2)34236I12/c115 f4 e2mS40
Nd2CuO44203I4/MMM e d c atI1433.40
Nd2Fe23B344298I4-3d e3 d2 c2cI224
Nd3Ni13B286374P6/MMM i h f e d bhP182.002.50
Nd3Ni13B286374P6/MMM i h g e c ahP182.002.50
Nd3Ni7P567094P63/m176 h10 dhP60
Nd6Fe13Si40059I4/mcm l3 k f d atI80
NdAlO310333R3-CH e b ahR102.152.7
NdAlO310333R3-CR e b ahR10
NdAs21730P121/c114 e3mP12
NdBr331590Ccmm f c2oS160.650.8
NdBr331590Cmcm f c2oS162.152.8
NdNiGa2103850Cmmm65 j2 i d boS16
NdRh2Sn4105285Pnma c7oP280.350.45
NdRh5B337031P6-2M f d bhP60.450.60
NdRh5B337031P6-2M g c ahP60.450.60
NdSi2-x54376P221217 d3 c3oP11
NdSn254292Cmmm65 j i c aoS12 ZrGa2, ThGe2
NdSn254292Cmmm65 j i d boS12 ZrGa2, ThGe2
NdTe323973Cmcm63 c4oS16 AsMn3, D0(d)
NdYbS32062C222120 c b a2oS20
nenadkevichite39843C1m18 b21 a13mS110 K2(Nb, Ti)2Si4O12(O, OH)2(H2O)1.6
NH4CdCl315616Pnam62 c5oP20
NH4CdCl315616Pnam62 c5oP36
NH4NO3(III)24012Pbnm AXY3d c3oP36.73.92
NH4NO3(IV)24013PmmnS59 e b a2oP18
NH4NO3(IV)24013PmmnS59 f b a2oP18 nitrammite
Ni12SrB6100286R3-MH h2 f bhR190.700.90
Ni12SrB6100286R3-MH h2 g ahR190.700.90
Ni17Th2105410P63/MMC k j g f c bhP380.851.10 CeNi15Si2
Ni17Th2105410P63/MMC k j g f d bhP380.851.10
Ni19Th2105411P63/mmc194 k2 j3 g f e d c bhP38
Ni20Sc4B1040443I41/amd141 h2 g f e2 c atI85
Ni20Y6P1362491P6- k6 j6 d c ahP390.250.35 Ni20Zr6P13, Rh20U6P13
Ni20Y6P1362491P6- k6 j6 f c ahP390.250.35 Ni20Zr6P13, Rh20U6P13
Ni2Re5As1235731Pnnm58 g9 aoP38
Ni2Tm105431F4-3m h2 g e4 b acF189
Ni2USi39968I4/mmm139 g e3 dtI24
Ni3P54177I4- g4tI320.440.55 Fe3P
Ni3Pb2S224176R3-MH d c b ahR72.102.80 Ni3Sn2S2
Ni3Pb2S224176R3-MH e c b ahR72.102.80 Ni3Sn2S2
Ni3Pb2S224176R3-MR d c b ahR7 Ni3Sn2S2
Ni3Pb2S224176R3-MR e c b ahR7 Ni3Sn2S2
Ni3S227521R32H155 d chR5 Ni3Se2, heazlewoodite, D5(e)
Ni3S227521R32H155 e chR5 Ni3Se2, heazlewoodite, D5(e)
Ni3Sn105357P63/MMC h chP80.700.90 Mg3Cd, Pt3U, SB: D0(19)Aristotype is Mg
Ni3Sn105357P63/MMC h dhP80.700.90 Mg3Cd, Pt3U, SB: D0(19)Aristotype is Mg
Ni3Sn2105358Pnma62N2O3d c3oP20
Ni3Ti30216P63/MMC h g c ahP161.451.85 Pd3U, SB: D0(24)D0(24)-Type
Ni3Ti30216P63/MMC h g d ahP161.451.85 Pd3U, SB: D0(24)
Ni3Zr2P376680Pnma62 c8oP32.75.9
Ni4U3Si441747Immm71 j2 i3 boI22 U3Ni4Si4
Ni4U3Si441747Immm71 j3 i2 aoI22 U3Ni4Si4
Ni5P443239P63MC c5 b a2hP36
Ni5YSi323036PnmaNO3P5c9oP36.31.4 Ni5USi3
Ni60Yb11C639331Im3-m k j f e2 d bcI154
Ni6PbY1254614Im3- g e acI38
NiAs31062P63/MMC c ahP41.22As: trig. prism: Ni6; Ni: bicapped octahedron: As6Ni2AsNi, NiS(LT), PtB, nickeline, niccolite, SB: B8(1)Close packed As layers in h stacking, all octahedral voids occupied by Ni. AsNi6 trigonal prisms share edges to form a 3D-framework.
NiAs31062P63/MMC d ahP41.22As: trig. prism: Ni6; Ni: bicapped octahedron: As6Ni2AsNi, NiS(LT), PtB, nickeline, niccolite, SB: B8(1)Close packed As layers in h stacking, all octahedral voids occupied by Ni. AsNi6 trigonal prisms share edges to form a 3D-framework.
NiAs224204Pbca61 c3oP24 pararammelsbergite
NiCl2(H2O)622284C12/m112 j i2 amS42 nickelbischofite
NiCl2(NCNH2)4411553Im3-m k h2 e bcI138
nigerite 3T39902P3-m1164 i4 e d4 c2 bhP41
nigerite 3T39902P3-m1164 i4 f d4 c2 ahP42
NiS29312R3MR160 b2hR6
NiSmGe360645Cmmm65 h2 g3oS20
NiSmGe360645Cmmm65 j2 i3oS20
NiSSb44606P213 a3cP12 ullmanniteAristotype is FeS2(cP12), S-Sb dumbbells, S-Sb=3.25, isopointal with ZrOS
NiTa2Si761352C12/m112 i10mS401.31.4
NiTi2105420FD3-MS227 f e ccF96
NiTi2105420FD3-MS227 f e dcF96Ni, Ti1: icosahedra: Ni: Ti9Ni3; Ti1: Ni6Ti6; Ti2: 14: Ni4Ti10
NiWO416685P12/c113 g2 f emP12 wolframite
NiZr6Cl1571149Im3-m h e b acI44
nolanite16761P63mc186 c3 b3 ahP26
offretite2747P6-m2 o2 n3 m l3 k3 j i2 h g c bhP86 zeolite-OFFCommon (Si, Al)O2-framework in o2 n2 m l k2 b with 54 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
OsGe243690C12/m112 i3mS12
Overite10406Pbca61 c18oP216 CaMgAl(PO4)2 OH(H2O)4
P2O540865R3CH161 b4 a2hR28
Pa24622I4/MMM atI20.750.90
Paragonite 3T200224P3112 c8 b a3hP6056.2
Paragonite 3T200224P3112 c8 b a3hP6156.2
Paragonite 3T200224P3112 c8 b a3hP6356.2
Paragonite 3T200224P3112 c8 b3 ahP6356.2
Pargasite87849C12/m112 j7 i2 h2 g b amS80 NaCa2Mg4AlAl2Si6O22 (OH)2
Pargasite87849C12/m112 j7 i2 h2 g b amS81 NaCa2Mg4AlAl2Si6O22 (OH)2
Pargasite87849C12/m112 j7 i2 h2 g b amS82 NaCa2Mg4AlAl2Si6O22 (OH)2
Pargasite87849C12/m112 j7 i2 h2 g b amS83 NaCa2Mg4AlAl2Si6O22 (OH)2
Pargasite87849C12/m112 j7 i2 h2 g b amS84 NaCa2Mg4AlAl2Si6O22 (OH)2
paulingite34452Im3-m229 l14 k12 j8 i2 h2 g f3 e3cI3460 Common (Si, Al)O2-framework in l14 k6 j6 i2 with 2016 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
Pb2Cl2CO338358P4/mbm k j h2 g etP321.051.15 phosgenite
Pb2Fe(CN)651493P3- g2 d ahP15.70.8
Pb2OSO414246C12/m112 j i5 gmS32
Pb3O2Cl223521Pnma62 d c5oP28 mendipite
Pb3O436253P42/MBC h2 g dtP280.6250.887Pb1: octahedron: O6; Pb2: npl. triangle: O3 (+(Pb2)); O1: npl. triangle: (Pb2)2(Pb1) (+(O2)); O2: (3+1) tetrahedron: (Pb
Pb4(Ti3Te)O1361228FD3-MZ227 f d c acF84
Pb5(AsO3)3Cl100168P63/m i h3 f bhP36.6.75
Pb5I6S225304C12/m112 i6 amS26
PB662748R3-mH166 h2 chR14
Pb7O8Cl2202630I4/mmm g e2 btI17 asisite
PbAgAsS326835P121/a1 e6mP24.76.84 marrite
PbClF30287P4/NMMZ129 c2 atP61.4812.098Pb: monocapped antiprism F4Cl5; Cl: tetrag. pyramid: Pb5; F: tetrahedron: Pb4BiClO, CeFeSi, KAgSe, NaMnP, ZrSiS, ZrSiSe, matlockite, bismoclite, SB: ESB: E0(1)-type; IGS of ternary BaAl4- and W-type slabs. With higher c/a ratio 2D-character appears.
PbClF30287P4/NMMZ129 c2 btP61.4812.098 matlockite, BiClO, Cu2Sb, SB: E0(1)
PbClOH27137Pnma62 c3oP16 laurionite
PbO53927P4/NMMZ129 c atP41.0651.509Pb: npl. square: O4 (+4Pb); O: tetrahedron: Pb4 (+4O)litharge, Sn(gamma), InBi, FeSe(alpha), BaO(HP), SB: B10SB: B10-type; planar square-mesh O nets, Pb atoms alternatively over and under the squares. Layer structure with edge-linked (: PbO4) square psi-pyramids. IGS of W- and CaF2-type slabs (1: 1)
PbSbO2Cl36159Bmmb63 e c3oS20 nadorite
PbTiO316621P4MM c b2 atP50.951.20 macedonite
PbU2Se566862P121/c114 e8mP321.41.65
PbWO4811P121/a1 e6mP24.37.45
PbWO4811P121/c1 e6mP242.252.75
PbZn2(AsO4)2(H2O)276617P1-2 i6 g f aaP18
PbZn2(AsO4)2(H2O)276617P1-2 i6 g f aaP19 helmutwinklerite
PbZnVO4OH40083Pnma62 d c5 aoP36 descloizite
PbZnVO4OH40083Pnma62 d c5 boP36 descloizite
Pd13Tl9105730P3-m1164 i2 f e d b ahP22
Pd17Se1523907PM3-M m j i f e d bcP64
Pd2RhTa105667P63/mmc194 k2 h f2 bhP40
Pd2SnU105698Pnma62NOP2c4oP15
Pd3Te277902Cmcm63 f c2 aoS2022.5
Pd3US4201796PM3-N d c acP16
Pd3US4201796PM3-N e c acP15
Pd3US4201796PM3-N e c acP16 NaPt3O4
Pd3US4201796PM3-N e d acP16 NaPt3O4
Pd4Pu32516R3-H e2 b ahR140.380.50
Pd4Pu32516R3-H f2 b ahR140.380.50
Pd5B243513C12/c115 f3 emS28
Pd5Pu3350Cmcm63 g f e c2oS32 La3In5, U3Ga5, Zr3Ga5, Zr3Rh5
Pd5Th3105719P6-2m189 g f chP8
Pd5TlAs23540P4/MMM i c b atP716.8012.008-a, 11-d, 12-b IGS of Cu3Au- and CaF2-type slabs.
Pd5TlAs23540P4/MMM i d b atP716.8012.00
Pd5TlAs23540P4/MMM i d c atP716.8012.00
Pd8Sb377891R3cH161 b5 a7hR44
PdF2(cP12)100567PA3- c acP12Pd: octahedron: F6; F: copl. triangle: Pd3 (+7F) Isopointal with FeS2(pyrite), but no F-F-dumbbells, 6 F-F=2.84, 1 F-F=2.89
PdF2(cP12)100567PA3- c bcP12Pd: octahedron: F6; F: copl. triangle: Pd3 (+7F) Isopointal with FeS2(pyrite), but no F-F-dumbbells, 6 F-F=2.84, 1 F-F=2.89
PdO26598P42/mmc131 e ctP4
PdO26598P42/mmc131 e dtP4 palladinite
PdSn2108761Aba241 b2 a2oS24
PdTa2S661004C12/m112 i4 amS18
pectolite25786P1-2 i15aP32
Phlogopite 1M44891C12/m112 j3 i2 h c bmS39
Phlogopite 1M44891C12/m112 j3 i2 h c bmS40
Phlogopite 1M44891C12/m112 j3 i2 h c bmS41
Phlogopite 1M44891C12/m112 j3 i2 h c bmS42
Phlogopite 1M44891C12/m112 j3 i2 h c bmS43
Phlogopite 1M44891C12/m112 j3 i2 h c bmS44
Phlogopite 1M44891C12/m112 j3 i2 h d amS44
phosphuranylite40010Cmcm63 h9 g5 f5 c3 boS332 KCa(UO2)7(PO4)4O4 (H2O)8(H3O)3
Phurcalite1687Pbca61 c29oP328 Ca3(UO2)3(PO4)2 (OH)4(H2O)4
Po(alpha)76749PM3-M acP1 SB: A19
Po(hR1)43212R3-mH166 ahR1.71.4
polyhalite6303F1-2 i13 aaP31 K2Ca2Mg(SO4)4 (H2O)2
Pr(HP)54388R3-MH166 h chR82.32.7
Pr2Re3B686366C12/c115 f5 emS4411.25
Pr2Si2O714252P121/c1 e11mP442.52.8
Pr3Rh4Sn13102352PM3-N k e c acP40 Yb3Rh4Sn13
Pr3Rh4Sn13102352PM3-N k e d acP40Pr: 16: Sn12Rh4; Rh: 9: Sn6Pr3; Sn1: icosahedron: Sn12; Sn2: 14: Rh2Sn9Pr3Yb3Rh4Sn13, phase IRhSn6 trigonal prisms share single corners to form a 3D-framework. Infinite columns of face-sharing PrSn12 cuboctahedra.
Pr7O121857R3-H148 f3 ahR19
Pr8Sb2S1520353I41cd b12 atI200
PrBN272107R3cH161 b4hR24
preisingerite31179P1-2 i15aP32
PrPS4201897I41/acd142 g2 e b atI96
Pt(NH3)4Cl(HSO4)235147P121/c114 e8 amP60
Pt3O443002PM3-N e ccP14Pt: copl. square: O4 (+2Pt); O; copl. triangle: Pt3 (+6O) PtO4 squares share single corners to form a 3D-framework.
Pt3Tl2105821P3-1c i f c ahP202.12.9
PtSn4105793Aba241 b2 aoS20
PtTe2105813P3-m1 d ahP311.35
PtTe2105813P3-m1 d bhP311.35
PtYAs44047P63/MMC f2 b ahP123.103.90 CaGaGe, Tb1-xNiP
Pu2C324620I4-3D d ccI40Pu: 9: C9; C: pentag. bipyramid: CPu6Rb2O3, C3Pu2SB: D5(c)-type; C-C dumb-bells (C-C=1.40, intermediate between single and double bond).
Pu3Zn22105879I41/amd141 i h3 e d btI100
Pu5Rh3105863P4/NCCS g f c btP320.500.65 Nd5Ir3
pumpellyite29259C12/m112 j4 i13 fmS100 Ca4MgAl5Si6O22 (OH)5H2O
pumpellyite29259C12/m112 j4 i13 fmS102 Ca4MgAl5Si6O22 (OH)5H2O
quartz, high31088P6222 i dhP9
quartz, high31088P6222 j chP9
quartz, high31088P6222 k chP9
quartz, high31088P6422 j chP9
quartz, low40009P3121 c ahP9
quartz, low40009P3221 c ahP9
Rb18Cu31Cl49201785I4-3d e6 d2 c3 acI385
Rb18Cu31Cl49201785I4-3d e6 d2 c3 bcI392
Rb2C251529Pnma62AXc4oP16
Rb3Hg20240037PM3-N k e d c acP46
RbAg3Sm2Se591095Cmcm63 f4 c3oS443.94.3
RbNiCrF615649Fd3-mZ227 f c bcF72
Re(NCl)F562531P121/m111 f2 e4mP16
Re3B43662Cmcm63 f c2oS162.32.9
Re7U4Si62471IM3-M e d c acI34
ReB223871P63/mmc194 f chP6
ReB324361P63/mmc194 f c ahP82.12.6
ReBiO410481Cmcm f c3 aoS24
ReBiO410481Cmcm f c3 boS24
ReO316810PM3-M c bcP4Re: octahedron: O6; O: colinear Pd2 (+8O)NCu3, Cu3N(antitype), SB: D0(9)RO6 octahedra share corners to form a 3D-framework
ReO316810PM3-M d acP4Re: octahedron: O6; O: colinear Pd2 (+8O)NCu3, Cu3N(antitype), SB: D0(9)ReO6 octahedra share corners to form a 3D-framework
ReY2B616187Pbam55 h3 g6oP36
ReY2B616187Pbam55 h6 g3oP36
ReY3B72475Cmcm63 f4 c3oS44 CrEr3B7
Rh13Sc57105922Pm3- l2 k3 j3 h g e b acP140
Rh2S315344Pbcn60 d2 coP20.65.8
Rh2Y3337I4/MCM m2 l2 h2 g f c b atI1402.002.60 Er3Rh2
Rh2Y3Si230725Pbcm57 e2 d2 coP28
Rh3ScSi715243R3-cH167 f e b ahR222.352.9
Rh3Y2Sn5105935Cmc2136 a10oS40
RhBi358853Pnma62 c4oP16
Rinkite28023P12114 a30mP60
roselite54882P121/c114 e7 amP38
rosenbuschite22334P1-2 i28 g c b aaP60
roweite6172Pbam55 i6 h5 g3 c aoP108
Ru2Si32344Pbcn60 d4 c2oP40
Ru3UB244578P3-147 g6 f e d2 b ahP48
Ru4Sn6Y54354I4-2m i2 c atI221.41.45
RuF526670P121/a1 e12mP48.42.46
RuF526670P121/c1 e12mP482.22.35
S3N2O215795C12/c115 f3 emS28
Sb2S326751PBNM c5oP200.300.40 Bi3S3, SB: D5(8)
Sb2S326751PCMN c5oP200.901.15 Bi3S3, SB: D5(8)
Sb2S326751PMCN c5oP202.703.40 Bi3S3, SB: D5(8)
Sb2S326751PNMA c5oP200.901.10 Bi3S3, SB: D5(8)
SbO224244Fd3-mZ227 f d c b acF96
SbTaO425548Pna2133 a6oP24
Sc15C1942631P4-21c114 e7 c2 b atP68
Sc2O2S2450P63/MMC f2 bhP103.104.10 Pt2Sn3, SB: D5(b)
Sc2S322236Fddd70 h g2 eoF80
Sc2S322236Fddd70 h g2 foF80
Sc2Si2O726682C12/m112 j i2 g dmS22 thortveitite, S2(1)
Sc2Si2O726682C12/m112 j i2 h amS22 thortveitite, S2(1)
Sc5Cl836403C12/m112 i6 amS26
Sc7Cl1236424R3-H148 f3 ahR19
Sc7I12C61265R3H146 b6 a2hR20
ScRhSi215248Pnma62c4oP161.451.65 YZn3
ScU3S6612Pnnm58 g9 c aoP40.2.3
ScU3S6612Pnnm58 g9 c boP40.2.3
ScU3S6612Pnnm58 g9 d boP40.2.3
ScUS32239Cmcm63 f c2 aoS20
ScUS32239Cmcm63 f c2 boS202.32.5
ScYS323422Pna21 a5oP201.31.45
Se53801P3121 ahP31.101.30 SB: A8
seidozerite30386P12/c113 g13 f2 e2mP59
seidozerite30386P12/c113 g13 f2 e2mP60
seidozerite30386P12/c113 g13 f2 e2mP62
SF663362Im3-m e acI14
Si(HP)16955Ia3- ccI16
Si3Cl82767F4-3c h e2 b acF176
SiC(4H)24170P63MC b2 a2hP82.953.6 Zhdanov-symbol: (2 2)
SiC(6H)15325P63MC b4 a2hP124.45.5
sillimanite25711Pbnm d c5 aoP32.68.9
sillimanite25711Pnma d c5 aoP32.91.2
Sm76031R3-MH c ahR36.508.50
Sm76031R3-MH c bhR36.508.50
Sm2F(AuF4)566068P41212 b13 a2tP11233.3
Sm2O334291C12/m112 i7 bmS30.55.7
Sm2O3(cI80)27998I213 c2 b2 acI80Sm1.2.3: octahedra: O6; O1: tetrahedron: Sm4 (+4O); O2: tetrahedron: Sm4 (+5O)
Sm5Ge441707Pnma62 d3 c3oP36.91.15 Ba5Sb4
SmSI2510R3-MH c3hR66.98.9
SmSI2510R3-MR c3hR6
Sn53790I41/AMDS141 atI40.500.62 SB: A5
Sn21Cl16(OH)14O615581R32H155 f7 e d c4 bhR71 abhurite
Sn2S397513Pnma62ABX3c5oP20
Sn5Ti627022P63173 c3 b2 ahP23
Sn5Ti627022P63173 c3 b2 ahP24
Sn5Ti6(P63/mmc)106088P63/mmc194 h2 g c ahP22
Sn7Tb354357Cmmm65 j4 i2 d boS20
SnF333786Fm3-m e b acF32
SnI431093PA3- AX4d c2cP40 ?? isopointal zu Au3NaSi ??
SnTaS2100387P63/mmc194 e c ahP8
sodalite24441P4-3n218 i e2 d ccP66 zeolite-SOD
sodalite24441P4-3n218 i e2 d c acP52 zeolite-SOD
sodalite24441P4-3n i e2 d c acP54 zeolite-SOD
sodalite24441P4-3n218 i e3 d ccP66 zeolite-SOD
Sr2N69016R3-mH c ahR35.06.3
Sr2N69016R3-mR c ahR3
Sr2Ta15O3250513R3-H148 f8 c2 bhR4945
Sr3Ti2O734629I4/MMM g e3 b atI244.3906.219Sr1: cuboctahedron: O12; Sr2: 9: O9; Ti: octahedron: O6; O: octahedra: O1.2: Sr4Ti2; O3: Sr5Ti IGS of NaCl- and CaTiO3-type slabs (1: 2). TiO6 octahedra share corners to form double slabs.
Sr4(Ga8Ge15)-a90177PM3-N k j i c acP54
Sr4(Ga8Ge15)-b90182PM3-N k2 i c acP54
Sr4Ti3O1034630I4/MMM g e5 c atI346.0528.574Sr1: cuboctahedron: O12; Sr2: 9: O9; Ti1.2: octahedra: O6; O: octahedra: O1.2.3: Sr4Ti2; O4: Sr5Ti IGS of NaCl- and CaTiO3-type slabs (1: 3). TiO6 octahedra share corners to form triple slabs.
Sr8Rh5H2374994Pm3-m h g f e c b acP36
Sr9B6N1274915Im3-m e c b acI28
SrCa2Lu10O189631P63 c10 bhP62
SrCa2Lu10O189631P63 c10 b ahP62
SrCa2Sc6O124127P63/m176 h3 c bhP21.3.36
SrSi22860P4132 c acP12
SrSi22860P4332 c acP12
SrSn4281669Cmcm63 f c2 aoS201.451.7
SrZnO215913Pnma62ABX2c4oP16
staurolite22051C12/m112 j7 i3 h g d c b amS77
staurolite22051C12/m112 j7 i3 h g d c b amS80
staurolite22051C12/m112 j7 i3 h g d c b amS81
staurolite22051C12/m112 j7 i3 h g d c b amS82
stilbite28270C12/m112 j12 i2 h gmS210 Common (Si, Al)O2-framework in j12 i h g with 108 atoms/cell, great variability of additional enclosed counter-cations and absorbed molecules
strunzite100409P1-2 i21aP70 MnFe2(PO4)2 (OH)2(H2O)6
sursassite30681P121/m111 f3 e13 d b amP51
Ta3B444589Immm71 h g2 coI14 D7(b)
Ta3B444589Immm71 j2 i aoI14
Ta5N629329P63/mcm k g dhP221.92.3
Ta6Cl1526104Ia3-d230 h3 gcI336
taramellite100265PmmnZ59 g8 f2 e4 b2 a2oP96 Ba2FeTiSi4O12(OH)2
TaS2(6R)52117R3MH AX2a6hR6
TaSe226249P63MC b4 a2hP126.18
TbB2C44141P42/MBC135 h3 gtP3211.25
TbFe6Sn6106583Cmcm63 g2 e d c5oS52
TbP5P1454085P121/c114 e20mP80.61.5
Tc2As366662P1-2 i10aP20
Te(OH)624956Fd3-cZ228 h ccF416
TeO2(alpha)202792P41212 b atP121.3301.884Te: 6+2: O6+2; O: 3+1: Te3+1 (+5O) Aristotype is TiO2(tP6), rutile
Th2S535088Pbcn60 d3 coP28
Th2Zn1720238R3-MH h f d c2hR191.301.65 Nb2Be17, Th2Fe17
Th3N414336R3-MH c3 ahR76.88.3
Th3N414336R3-MR c3 ahR7
Th3P425724I4-3D c acI28Th: cube: P8; P: octahedron: Th6 (+3P)P4Th3, sesquisulfide C, Ce2S3(gamma)SB: D7(3)-type
Th3P425724I4-3D c bcI28 SB: D7(3)
Th6Mn23H16201431Fm3-m i f3 e d b acF181
Th7Se1226672P63/m176 h3 ahP19
ThB2C68414R3-mH g d c ahR12
ThB424680P4/MBM i h g etP200.4800.680 UB4, SB: D1(e)
ThB424680P4/MBM j h g etP200.4800.680
ThH256178I4/mmm139 d atI61.11.51
ThMoB441819Cmmm p j i h goS24
ThMoB441819Cmmm65 q j i h goS24
Thomsonite61166Pncn52 e18 d2 c2oP204 Common SiAlO4-framework in e14 d2 with 120 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
Thomsonite(substr.)20007Pbmn53 i6 h4 g f e boP102 zeolite THOCommon (Si, Al)O2-framework in i6 h g e with 60 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
ThSi277320I41/AMDZ141 e atI122.9214.138Th: 12+8: Si12Th8; Si: 9: Si3Th6 SB: C(c)-type
ThSi277320I41/AMDZ141 e btI122.9214.138
ThTi2O614341C12/m112 i4 amS18 thorutite
ThTl106158Pbcm57 d4 c2oP24
ThZr2H756180Fd3-mZ227 f c b acF80
ThZr2H756180Fd3-mZ227 f d b acF80
Ti2C77473Fd3-mZ227 e ccF48
Ti2C77473Fd3-mZ227 e dcF48
Ti3P43062P42/NS86 g4tP320.4210.596Ti1: 14: P2Ti12; Ti2: 14: P4Ti10; Ti3: 13: P3Ti10; P: 9: Ti9Nb3As, Ta3As, Ta2NbAsInfinite columns of face-sharing Ti4Ti4, resp. Ti4P4, tetrahedron stars (inner tetrahedron whose faces are capped by the atoms of an outer tetrahedron). PTi6 trigonal prisms.
Ti3Zn22150122P42/mbc i4 h3 g btP100
Ti5Te415451I4/M h2 atI180.340.42
Ti5Te415451I4/M h2 btI180.340.42
TiAs16773P63/MMC f c ahP83.004 MoC(gamma), NbN, TiP, Ti1-xS
TiAs16773P63/MMC f d ahP834 MoC(gamma), NbN, TiP, Ti1-xS
TiB251856P42/nnmS134 n2 m2 b atP52
tilasite56862C12/c115 f2 e3 amS32 MgCaAsO4F, titanite
tilasite56862C12/c115 f2 e3 bmS32 MgCaAsO4F, titanite
tilasite56862C12/c115 f2 e3 cmS31 MgCaAsO4F, titanite
tilasite56862C12/c115 f2 e3 cmS32 MgCaAsO4F, titanite
tilasite56862C12/c115 f2 e3 dmS32 titanite
TiO2(tI12)31064I41/AMDZ141 e atI122.1102.990Ti: octahedron: O6; O: copl. triangle: Ti3 (+6O)anatase, SB: C5TiO6 octahedra share edges to form a 3D-framework with zigzag chains of edge-linked octahedra.
TiO2(tI12)31064I41/AMDZ141 e btI122.1102.990Ti: octahedron: O6; O: copl. triangle: Ti3 (+6O)anatase, SB: C5TiO6 octahedra share edges to form a 3D-framework with zigzag chains of edge-linked octahedra.
TiO2(tP6)53997P42/MNM f atP60.5430.770Ti: octahedron: O6; O: copl. triangle: Ti3 (+11O)rutile, SB: C4Infinite chains of edge-linked TiO6 octahedra share single corners to form a 3D-framework. O inside Ti3 triangles.
TiO2(tP6)53997P42/MNM f btP60.5430.770Ti: octahedron: O6; O: copl. triangle: Ti3 (+11O)rutile, SB: C4Infinite chains of edge-linked TiO6 octahedra share single corners to form a 3D-framework. O inside Ti3 triangles.
TiPbO327949Pmmm h g f d aoP5
TiS342072P121/m111 e4mP8
TiSi21089Fddd70 e aoF24 C54
TiZn16150123Cmcm63 h2 g f2 c2 aoS68
Tl2S51911P212121 A2X5a7oP28
Tl2Se230219I4/MCM h b atI160.7331.039Tl1: sq. antiprism: Se8; Tl2: tetrahedron; Se4 (+4Se); Se: cube: (Tl2)2+2(Tl1)4 (+2Se)InTe, SB: B37Infinite chains of edge-linked TlSe4 tetrahedra and 3D-framework of face- and edge-sharing TlSe8 square antiprisms.
Tl3AsS444054Pnma62 d2 c4oP32.851.2 (NH4)3AsS4, Tl3PS4
Tl3AsS444054Pnma62 d2 c4oP80.851.2 (NH4)3AsS4, Tl3PS4
Tl3AsSe315148R3mH160 b2 ahR7
Tl3VS416572I4-3M c b acI16
Tl5Te342674I4-82 g3 e b atI32
Tl7Sb252288Im3-m h f e acI54
TlI26761AMMA c2oS82.202.75 AgCa, CrB, B33CrB contains infinite B-chains
TlI26761Bbmm c2oS80.310.40 AgCa, CrB, B33
TlI26761CMCM c2oS8.951.32 AgCa, CrB, B33CrB contains infinite B-chains
TlPd3O42276Fm3-m f d b acF64
TlV12S1652203P63173 c2 b ahP15
TlV5S8100374C1215 c6 b amS28.45.52
Tm2Fe2Si2C79394C12/m112 i3 amS14
Tm2S3430P121/m111 e10mP20
TmRuGa3106748Pm3-m g d c acP15
TmRuGa3106748Pm3-m g d c bcP15
tomichite202164P121/m111 f9 e4mP46 V3FeAsTi3O13OH
topaz52358Pbnm62 d3 c3oP36 Al2SiO4(OH, F)2
topaz52358Pbnm62 d3 c3oP37
topaz52358Pbnm62 d3 c3oP38
Tourmaline4380R3MH c5 b6 a2hR540.400.55 NaFe3Al6(BO3)3 Si6O18(OH)4
Tourmaline4380R3MR c5 b6 a2hR5411 NaFe3Al6(BO3)3 Si6O18(OH)4
Tremolite46173C12/m112 j7 i2 h2 g amS78
Tremolite46173C12/m112 j7 i2 h2 g amS79
Tremolite46173C12/m112 j7 i2 h2 g amS80 Ca2Mg5Si8O22(OH)2
Tremolite46173C12/m112 j7 i2 h2 g amS81 Ca2Mg5Si8O22(OH)2
Tremolite46173C12/m112 j7 i2 h2 g amS82 Ca2Mg5Si8O22(OH)2
Tridymite38126P63/mmc g f chP12
troegerite35348P4/nccZ130 g2 c3 btP84 D(UO2)2AsO4(D2O)4
tsumcorite34763C12/m112 j i4 f amS30
tsumcorite34763C12/m112 j i4 f amS34
tsumcorite34763C12/m1 j i4 f amS36
tsumcorite34763C12/m112 j i4 f amS37
tuhualite17017Cmca64 g9 f3 e2 doS192
tuhualite17017Cmca64 g9 f3 e2 doS204
tuhualite17017Cmca64 g9 f4 e2 doS200
tuhualite17017Cmca64 g9 f4 e2 doS204
Turquoise21062P1-2 i19 aaP55 CuAl6(PO4)4 (OH)8(H2O)4
U16056Cmcm63 coS41.61.85
U3Si1890I4/mcm140 h b atI16
U3Si231626P4/MBM h g atP100.4460.633U1: 12: U8Si4 (+2U); U2: 10: Si6U4 (+5U); Si: 9: SiU8LiY2Si3, SB: D5(a)Si-Si-dumbbells. Si-Si=2.30. SiU6 trigonal prisms share faces and edges to form a 3D-framework; aditional U atoms in channels (square section).
U3Si231626P4/MBM h g atP90.4460.633
U4O9-beta15439I4-3d e14 d3 c4 b acI832
U4S338354Pm3-m221 d c acP7
U4S338354Pm3-m d c bcP7
U64O14341014I4-3d e15 d2 c3 bcI828
UB1224705FM3-M i acF52 ZrB12, SB: D2(f)SB: D2(f)-type
UBC73828Cmcm c3oS12
UCl32353P63/M h chP14.5.63
UCl32353P63/M h chP8.5.63 La(OH)3
UCl32353P63/M h dhP14.5.63
UCl32353P63/M h dhP8.5.63
UCl430648I41/amZ141 h atI200.870.93
UCl631625P3-M1 i3 d ahP21.52.62
UCl631625P3-M1 i3 d bhP21.52.62
UD340065Pm3-n c acP32
UD340065Pm3-n k c acP32 AuZn3
UF414137C12/c115 f6 e2 cmS60
UF414137C12/c115 f6 e2 dmS60
UO331628P3-m1164 d b ahP411.4
UTe226283Immm71 j i hoI12
V2Zr3Ga4104028Pnma62 d3 c12oP72.75.9
V3S26515I4-2m121 i2 g ftI32
V4Sb2Si82564I4/MCM k h atI28.45.49
V6Si515303Ibam72 j4 f aoI44
V6Si515303Ibam72 j4 g aoI44
Variscite819Pbca61 c8oP96.81.2
vivianite30645C12/m112 j3 i3 g amS74 Fe3(PO4)2(H2O)8
VO222303Pbnm62 c3oP12
Voltaite9254Fd3-cZ228 h6 g f c b acF2000
Voltaite9254Fd3-cZ228 h8 g c b acF2000
W53800IM3-M acI2W: rhombic dodecahedron: W8+6bcc, Fe(alpha), SB: A2Infinite 3D-framework of fused WW8 cubes.
W5Si373331I4/MCM k h b atI320.4330.614W1: 15: Si6W9; W2: 12: Si4W10; Si1: 10+2: W10Si2: Si2: bucappled sq. antiprism: W8Si2SB: D8(m)
Wadalite62980I4-3d e d c2 b acI127
WC22258P6-M2 c bhP20.861.10
WC22258P6-M2 d ahP20.861.10 B(h)-type
WC22258P6-M2 e bhP20.861.10 B(h)-type
WC22258P6-M2 f ahP20.861.10 B(h)-type
WCl323129R3-H f4hR24.5.6
wenkite2083P6-2m l5 k2 j2 i3 h2 g2 f bhP90
Whitlockite1490R3cH b14 a3hR903.43.6
Whitlockite1490R3cH161 b14 a4hR91
WN230364R3-mH166 c ahR356.3
wodginite56863C12/c115 f5 e2mS48.48.6 MnSnTa2O8
Woehlerite100158P12114 a30mP60
wyllieite6203P121/n114 e20 dmP79 Na2(Mn, Fe)2Al(PO4)3
XeF226625I4/mmm e atI61.451.8
XeF426626P121/c114 e2 amP10
Y3Co4Ge1352992PM3-N k2 e d acP40
Y3Ge520612Fdd243 b3 a2oF64
Y3TaO710059C222120 c3 b2 a3oS44
Y5S743620C12/m112 i5 d amS24
Y6Mn23H8.386403Fm3-m f2 e d bcF152
Y6Mn23H8.386403Fm3-m f3 e d b acF149
Yb3S415726Pnma62 c7oP28.951.07
Yb5Sb326221PCMN d2 c4oP321.351.70 Ca5Sb3, U3S5
Yb5Sb326221PNMA d2 c4oP320.600.75 Ca5Sb3, U3S5
YBa2Cu3O6-x62919P4/mmm i h g2 f d atP122.953.2
YBa2Cu3O6-x62919P4/mmm i h2 g e d atP122.953.2
YbCl26054Pbca61 c3oP24
YbCrO4OH72151P121/c114 e14mP64
YF326595PBNM AX3d c2oP161.001.25
YF326595PNMA AX3d c2oP160.600.80 "isopointal with Fe3C AX3, must contain F, Cl, Br oder I enthalten"
YNbO4(mP)100176C12/c115 f2 e2mS24
YTaO415352P121/a113 g2 f emP12.861.25
Yugawaralite26819P1c17 a29mP74 zeolite YUGCommon (Si, Al)O2-framework in a24 with 48 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zemannite33638P63/m176 i3 h2 f ehP56
zemannite33638P63/m176 i3 h4 f bhP32 Na2Zn2(TeO3)3
zeolite A26911Pm3-m221 m k i h g ecP81 Linde-A, zeolite-LTACommon (Si, Al)O2-framework in m k i h with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite A26911Pm3-m221 m k i2 h gcP84Linde-A, zeolite-LTACommon (Si, Al)O2-framework in m k i h with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite A26911Pm3-m221 m k2 i h g2cP78 Linde-A, zeolite-LTACommon (Si, Al)O2-framework in m k i h with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite A26911Pm3-m221 m l2 k i h g3cP96 Linde-A, zeolite-LTACommon (Si, Al)O2-framework in m k i h with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite A26911Pm3-m221 m2 k i h g2cP116 Linde-A, zeolite-LTACommon (Si, Al)O2-framework in m k i h with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite A26911Pm3-m221 m2 k i h g4 fcP83Linde-A, zeolite-LTACommon (Si, Al)O2-framework in m k i h with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite A26911Pm3-m221 m2 k i h2 g5cP90 Linde-A, zeolite-LTACommon (Si, Al)O2-framework in m k i h with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite AlPO-591671P6cc d6hP72 Common (P, Al)O2-framework in d6 with 72 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite L18099P6/mmm r2 q p o3 n m2 l k2 j2 g e d c bhP180.37.46 Linde-L, zeolite-LTLCommon (Si, Al)O2-framework in r2 q p o2 m k with 108 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite Theta-161178Cmc2136 b7 a4oS72
zeolite TMA-E31491P63/mmc194 l2 k7 j i h f e2hP2301.11.3 zeolite-EAB, bellbergiteCommon (Si, Al)O2-framework in l2 k3 j i with 108 atoms/(rhombohedral cell), great variability of additional enclosed counter-cations and adsorbed molecules, cell similar to erionite-cell
zeolite ZK522054Im3-m229 l2 k2 j i f2cI612 Common (Si, Al)O2-framework in l k2 j i with 288 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite ZSM-1130003I4-m2 j14 i4 h2 g2tI288 Common (Si, Al)O2-framework in j14 i4 h2 g2 with 288 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite ZSM-560674Pnma62 d50 c13oP452 Silicalite(oP)Common (Si, Al)O2-framework in d34 e4 with 288 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite-ABW6269Pna2133 a9oP39
zeolite-IFR280740I12/m112 j10 i3 gmS96
zeolite-LOS20177P3-1c159 c16 b3 a2hP106.78.84
zeolite-LTA24901Fm3-c226 j7 i4 g2 a2cF1319
zeolite-RHO74367Im3-m229 k j i f bcI149 Common (Si, Al)O2-framework in k j i with 144 atoms/cell, great variability of additional enclosed counter-cations and adsorbed molecules
zeolite-RHO-I4-3m23708I4-3m217 h2 g2cI156
zeolite-RON31016I4/mcm140 m2 l2 k5 j i htI265 Roggianite
zeolite-RTE86547C12/m112 j7 i2 h gmS72 RUB-3
zeolite-STF410595P1-2 i24aP48 SSZ-35, ITQ-9
zeolite-ZON57129Pbca61 c29oP328 ZAPO-M1
zippeite81585C12/c115 f16 e2mS168 K(UO2)2(OH)3SO4H2O
Zn(CN)222392P4-3m e2 b acP10
Zn(CN)2(disordered)84968Pn3-mS224 e acP10
Zn3P226876P42/NMCZ137 g3 f d ctP401.301.60 Cd3As2, SB: D5(9)
Zn4Ta2O949006C12/c115 f14 e amS120
ZnMn3O7(H2O)3202700R3-H148 f4 c2hR40 chalcophanite
ZnS(12R)37374R3MH160a8hR88.811 Zhdanov-symbol: (3 1)3
ZnS(15R)37375R3MH160 a10hR101113.5 Zhdanov-symbol: (3 2)3
ZnS(21R)37376R3MH160 a14hR1415.519 Zhdanov-symbol: (3 1 1 2)3
ZnS(2H)31061P63MC b2hP41.551.8 Wurtzite
ZnS(9R)37373R3MH160a6hR66.68.7 Zhdanov-symbol: (2 1)3
ZnS(cF8)53943F4-3M c acF8All tetrahedra: Zn: S4; S: Zn4SZn(cF8), sphalerite, zincblende, SB: B3Close packed S layers in c stacking, Zn in tetrahedral voids (stacking sequence AabbCc). ZnS4 terahedra share single corners to form a 3D-framework.
ZnS(cF8)53943F4-3M d acF8All tetrahedra: Zn: S4; S: Zn4SZn(cF8), sphalerite, zincblende, SB: B3Close packed S layers in c stacking, Zn in tetrahedral voids (stacking sequence AabbCc). ZnS4 terahedra share single corners to form a 3D-framework.
ZnSb2O630409P42/MNM j f e atP181.6662.360"Zn, Sb: octahedra: O6; O1: copl. triangle: ZnSb2 (+13O); O2: copl. triangle: ZnSb2 (+12O)"ordenezite, tapiolite
Zoisite20235Pnma62 d4 c13oP88
Zr(SO4)2(H2O)426499Fddd70 h3 e aoF184
Zr2NiAs268141P63/MMC f c b ahP102.93.6
Zr2Rh12P777789P63/m h3 c bhP21.37.44
Zr3O23402R32H155 f e d c2hR16
Zr3PbO4F660959Fm3-m i f e ccF112
Zr5Si443214P41212 b4 atP361.652.00 tP36, P31212, 1.65-2, b4 a, 43214
Zr5Zn39150130C12/m1 j6 i7 f e c amS88
ZrBeSi76123P63/MMC d c ahP61.552.05
ZrCr2Hx20799Fd3-mZ227 g d acF32
ZrCr2Hx20799Fd3-mZ227 g d acF33
ZrCr2Hx20799Fd3-mZ227 g d acF34
ZrCr2Hx20799Fd3-mZ227 g d acF52
ZrGa2104041Cmmm65 h g c aoS12
ZrGa2104041Cmmm65 h g d boS12
ZrO2(mP)18190P121/c1 e3mP12.921.1 baddeleyite
ZrOS31721P213 a3cP12Zr: 7: O3S4; O: nopl. triangle: Zr3 (+7S); S: tetrahedron: Zr4 (+7O)IrLaSi, LaIrSiIsopointal with NiSbS. Aristotype is PdF2. No O-S dumbbells
ZrSi226758Cmcm63 c3oS12.921.05
ZrSiO431130I41/AMDS141 h b atI240.7561.072Zr: 8: O4+4; Si: tetrahedron: O4; O: copl. triangle: SiZ1+1 (+5O)zircon, SB: S1(1)=H3Isolated SiO4 tetrahedra.
(NH4)Pb2Br5
Ag2Te-alpha
Ag2ZnP2S6
alpha-cristobalite
alpha-K2SO4
alpha-quartz
Apatite
BaGe2O5 III
BaSi2
BaTiO3-6H
BCr
Bi(IO3)3
Ca11InSb9
CaBe2Ge2
CaCr2Al10
CaCuO2
CaIrO3
CaZrTi2O7
Ce2Li2Ge3
Ce3Al4Si6
CeCu2
Co2Al9
Co2Ge4Tb3
CrB
Cs2(B12H12)
Cs2In3
Cu5Ho7Sb
CuO2
Delafossite
Delafossite-2H
ErFe4Ge2-LT
EuAuGe
EuMg2D6
Fergusonite
Hf Cu Si2
HfCuSi2
HfFe6Ge6
HfRhSn
Hg4Pt
Ho10Ni9In20
Ho3Si4
Hollandite
IrU
K2NiF4
Keggin
KHg
KHg2
La3Rh4Sn13
La4Co2Sn5
La4Ni3Pb4
LaCu0.28Te2
Langasite
Langbeinite
Li2O
LiP
LiTe2Ti
MgAgAs
MgK2(SO4)2(H2O)6
Monazite
NaZr2(PO4)3
PbSb2O6
PbZrO3
Pr5Co19
Pu3Pd5
PuGa6
PuNi3
Pyrochlore
Quartz
Sc3NiSi3
Si2Zr
Sm3CuSe6
SmMn6Sn6
Sr5Nb5O17
TbCu7
Th2Ni17
ThCr2Si2
TiNiSi
Vaterite
Whitlockite-type
Y2AlGe3
Yb2Pt3Sn5
Yb36Sn23
YBaCo4O7
YFe6Sn6
YPd2Si
Zeolite TMA
ZnS
Zr2Ni7
ZrNiAl


The ICSD database is copyright 2003 by Fachinformationszentrum (FIZ) Karlsruhe
Please report technical problems with ICSD for WWW to hewat@ill.fr (Alan Hewat).