Structures by: Fässler T. F.
Total: 107
In1P2,3(Li)
In1P2,3(Li)
Chemical Science (2021)
a=12.0065(3)Å b=12.0065(3)Å c=23.9165(7)Å
α=90° β=90° γ=90°
C72H138K2N4O12Si9Sn2
C72H138K2N4O12Si9Sn2
Chemical Science (2019)
a=31.6324(14)Å b=11.8423(7)Å c=25.7817(12)Å
α=90° β=108.231(3)° γ=90°
C18H54Si17,2(C18H36KN2O6),C6H5F
C18H54Si17,2(C18H36KN2O6),C6H5F
Chemical Science (2019)
a=16.4939(9)Å b=25.3561(17)Å c=22.6197(12)Å
α=90° β=90.756(4)° γ=90°
(4,7,13,16,21,24-Hexaoxa-1,10-diazabicyclo[8.8.8]hexacosane-κ^8^<i>N</i>~2~,<i>O</i>~6~)rubidium 4,4-bipyridinidyl
C18H36N2O6Rb,C10H8N2
IUCrData (2016) 1, 3 x160505
a=11.2326(4)Å b=8.0250(3)Å c=16.3653(7)Å
α=90° β=91.950(3)° γ=90°
2(C18H36KN2O6),C4H10Ge4Zn2,2(H3N)
2(C18H36KN2O6),C4H10Ge4Zn2,2(H3N)
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=11.8593(6)Å b=14.5737(7)Å c=18.8970(10)Å
α=80.335(4)° β=74.598(4)° γ=69.591(4)°
Sn8Zn,6(H3N),6(K)
Sn8Zn,6(H3N),6(K)
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=9.6916(6)Å b=12.2418(7)Å c=18.6684(8)Å
α=99.120(4)° β=90.067(4)° γ=94.894(5)°
C24H24N2Zn2,2(C12H30KN2O6),4(H3N)
C24H24N2Zn2,2(C12H30KN2O6),4(H3N)
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=11.963(5)Å b=12.328(5)Å c=12.683(6)Å
α=107.43(4)° β=106.66(4)° γ=104.16(3)°
C12H24K0.84O6Rb0.16,C18H15Zn
C12H24K0.84O6Rb0.16,C18H15Zn
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=21.842(2)Å b=7.2588(15)Å c=18.322(3)Å
α=90° β=90° γ=90°
C27H33Zn,C16H35KNO7,C4H8O
C27H33Zn,C16H35KNO7,C4H8O
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=15.7570(5)Å b=13.1722(5)Å c=23.6712(8)Å
α=90° β=94.486(3)° γ=90°
2(C12H30KN2O6),C8H36N8Zn5,H3N
2(C12H30KN2O6),C8H36N8Zn5,H3N
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=11.554(2)Å b=14.140(3)Å c=18.988(4)Å
α=89.02(3)° β=77.37(3)° γ=87.11(3)°
3(C18H36KN2O6),C2H5Ge9Zn,7.4(H3N)
3(C18H36KN2O6),C2H5Ge9Zn,7.4(H3N)
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=14.6139(7)Å b=14.9181(6)Å c=23.6002(8)Å
α=97.552(3)° β=91.645(3)° γ=117.312(3)°
C22H39KO6,2(H3N)
C22H39KO6,2(H3N)
Dalton transactions (Cambridge, England : 2003) (2020) 49, 19 6191-6198
a=10.1910(2)Å b=16.1458(3)Å c=32.8773(9)Å
α=90° β=90° γ=90°
2(C18H36N2O6Rb),Ge10,1.5(C2H8N2)
2(C18H36N2O6Rb),Ge10,1.5(C2H8N2)
Chemical communications (Cambridge, England) (2016) 52, 63 9841-9843
a=10.8759(2)Å b=13.4395(3)Å c=21.2985(4)Å
α=85.907(2)° β=88.885(2)° γ=88.995(2)°
C12H11Ge4Zn,2(C12H24K0.045O6Rb0.955),C12H30KN2O6,6(H3N)
C12H11Ge4Zn,2(C12H24K0.045O6Rb0.955),C12H30KN2O6,6(H3N)
Chemical communications (Cambridge, England) (2018) 54, 87 12381-12384
a=12.8668(5)Å b=28.2571(9)Å c=20.0883(6)Å
α=90° β=90° γ=90°
Ge9,C12H24K0.28O6Rb0.72,3(K0.18Rb2.82),3(H3N),3(H1.50N0.50)
Ge9,C12H24K0.28O6Rb0.72,3(K0.18Rb2.82),3(H3N),3(H1.50N0.50)
Chemical communications (Cambridge, England) (2018) 54, 87 12381-12384
a=38.5713(8)Å b=9.9970(2)Å c=19.0042(4)Å
α=90° β=94.337(2)° γ=90°
Ge9H18N6Zn2,11(H3N)
Ge9H18N6Zn2,11(H3N)
Chemical Communications (2019)
a=10.355(2)Å b=17.830(4)Å c=10.478(2)Å
α=90° β=113.42(3)° γ=90°
C72H216Ge36Si32Zn,6(K),6(C7H8)
C72H216Ge36Si32Zn,6(K),6(C7H8)
Chemical Communications (2019)
a=16.0588(5)Å b=22.0076(6)Å c=37.9449(12)Å
α=85.691(2)° β=88.100(3)° γ=70.120(2)°
C39H81Ge9KOSi9
C39H81Ge9KOSi9
Chem. Commun. (2017)
a=9.5002(19)Å b=43.372(9)Å c=16.273(3)Å
α=90° β=95.34(3)° γ=90°
C78H150Ge18K2Si18
C78H150Ge18K2Si18
Chem. Commun. (2017)
a=18.404(4)Å b=27.045(5)Å c=27.036(5)Å
α=90° β=100.80(3)° γ=90°
2(C27H36CuN2Si9),3(C18H36KN2O6),26(H3N),3(K)
2(C27H36CuN2Si9),3(C18H36KN2O6),26(H3N),3(K)
Chemical Communications (2017)
a=17.1066(3)Å b=18.1573(3)Å c=30.8056(5)Å
α=87.0760(10)° β=81.339(2)° γ=65.383(2)°
2(C27H36CuN2Si9),3(C18H36K0.96N2O6Rb0.05),26(H3N),3(K0.30Rb2.70)
2(C27H36CuN2Si9),3(C18H36K0.96N2O6Rb0.05),26(H3N),3(K0.30Rb2.70)
Chemical Communications (2017)
a=17.1296(3)Å b=18.1554(3)Å c=30.7960(5)Å
α=86.8990(10)° β=81.149(2)° γ=65.729(2)°
C32H90Ge9Si12
C32H90Ge9Si12
Dalton transactions (Cambridge, England : 2003) (2018) 47, 10 3223-3226
a=16.0667(7)Å b=17.5351(8)Å c=23.8145(11)Å
α=90° β=90° γ=90°
C27H36CuN2Sn9,3(C18H36KN2O6),24(H3N)
C27H36CuN2Sn9,3(C18H36KN2O6),24(H3N)
Dalton Trans. (2017)
a=58.988(13)Å b=16.921(4)Å c=31.528(7)Å
α=90° β=116.242(10)° γ=90°
C27H36AgN2Sn9,3(C18H36KN2O6),24(H3N)
C27H36AgN2Sn9,3(C18H36KN2O6),24(H3N)
Dalton Trans. (2017)
a=57.9254(15)Å b=16.7406(3)Å c=31.1204(8)Å
α=90° β=115.003(3)° γ=90°
C27H36AuN2Sn9,3(C18H36KN2O6),24(H3N)
C27H36AuN2Sn9,3(C18H36KN2O6),24(H3N)
Dalton Trans. (2017)
a=58.0663(14)Å b=16.7942(3)Å c=31.1263(7)Å
α=90° β=115.319(3)° γ=90°
4(C18H36KN2O6),AgSn18,H12KN4,2(H9KN3),13(H3N)
4(C18H36KN2O6),AgSn18,H12KN4,2(H9KN3),13(H3N)
Dalton Trans. (2017)
a=17.3360(2)Å b=17.5287(2)Å c=27.4117(3)Å
α=78.6500(10)° β=85.7410(10)° γ=71.5890(10)°
?
C43H64ClK2O18PPdS2
Dalton transactions (Cambridge, England : 2003) (2011) 40, 33 8304-8313
a=10.4999(9)Å b=16.624(1)Å c=16.890(1)Å
α=83.955(4)° β=78.587(4)° γ=79.133(4)°
Potassium-[18]crown-6-Salt of Nonaplumbide(4-)
C28.5H56K2NO12Pb4.5
Journal of the Chemical Society, Dalton Transactions (1999) 19 3339
a=14.618(2)Å b=14.771(2)Å c=21.583(3)Å
α=90.00° β=108.13(3)° γ=90.00°
Lithium Germanide
GeLi4.096
Dalton Transactions (2014)
a=4.5511(2)Å b=22.0862(7)Å c=13.2751(4)Å
α=90.00° β=90.00° γ=90.00°
Lithium Tetrelide
Ge3.527Li17Si0.473
Dalton Transactions (2014)
a=18.7721(5)Å b=18.7721(5)Å c=18.7721(5)Å
α=90.00° β=90.00° γ=90.00°
Lithium Germanide
Ge4Li17
Dalton Transactions (2014)
a=18.8521(3)Å b=18.8521(3)Å c=18.8521(3)Å
α=90.00° β=90.00° γ=90.00°
Lithium Tetrelide
Ge3.08Li17Si0.92
Dalton Transactions (2014)
a=18.7515(2)Å b=18.7515(2)Å c=18.7515(2)Å
α=90.00° β=90.00° γ=90.00°
Lithium Tetrelide
Ge2.30Li17Si1.70
Dalton Transactions (2014)
a=18.7125(1)Å b=18.7125(1)Å c=18.7125(1)Å
α=90.00° β=90.00° γ=90.00°
Tris[(4,7,13,16,21,24-hexaoxa-1,10-diazabicyclo[8.8.8]hexacosane-κ^8^N~2~,O~6~)rubidium] rubidium nonastannide
3(C18H36N2O6Rb),Sn9,Rb
Acta Crystallographica Section E (2017) 73, 2 147-151
a=15.7287(8)Å b=16.1530(10)Å c=20.2896(8)Å
α=98.782(4)° β=104.350(4)° γ=118.407(6)°
Tetracalcium triarsenide
Ca4As3
Acta Crystallographica Section E (2015) 71, 12 1548-1550
a=11.5137(5)Å b=12.0584(6)Å c=10.3426(4)Å
α=90.00° β=90.00° γ=90.00°
Heptapalladium tetratin
Pd6.69Sn4.31
Acta Crystallographica Section E (2015) 71, 7 807-809
a=8.77574(17)Å b=8.77574(17)Å c=16.9004(4)Å
α=90° β=90° γ=120°
Terbium hexaniobium hexatin
Nb6Sn6Tb
Acta Crystallographica Section E (2010) 66, 12 i82
a=5.76500(10)Å b=5.76500(10)Å c=9.5387(4)Å
α=90.00° β=90.00° γ=120.00°
Lithium Silicide
Li13Si4
Acta Crystallographica Section E (2013) 69, 12 i81-i82
a=7.9488(4)Å b=15.1248(8)Å c=4.4661(2)Å
α=90.00° β=90.00° γ=90.00°
(1,4,7,10,13,16-Hexaoxacyclooctadecane-κ^6^<i>O</i>)bis(tetrahydrofuran-κ<i>O</i>)potassium bis[(1,2,3,4-η)-anthracene]cobalt(-I) tetrahydrofuran monosolvate
C20H40KO8,C28H20Co,C4H8O
Acta Crystallographica Section E (2014) 70, 1 m9-m10
a=13.0428(10)Å b=13.3557(10)Å c=27.4939(17)Å
α=90.00° β=90.00° γ=90.00°
P4Ge0.67,9.33(Li)
P4Ge0.67,9.33(Li)
Chemistry of Materials (2020)
a=5.95667(3)Å b=5.95667(3)Å c=5.95667(3)Å
α=90.0000° β=90.0000° γ=90.0000°
P4Sn0.67,9.33(Li)
P4Sn0.67,9.33(Li)
Chemistry of Materials (2020)
a=6.01751(3)Å b=6.01751(3)Å c=6.01751(3)Å
α=90.0000° β=90.0000° γ=90.0000°
Lithium Silicide
Li17Si4
Chemistry of Materials (2013) 25, 9 1960
a=18.7353(3)Å b=18.7353(3)Å c=18.7353(3)Å
α=90.00° β=90.00° γ=90.00°
Lithium Silicide
Li17Si4
Chemistry of Materials (2013) 25, 9 1960
a=18.6563(2)Å b=18.6563(2)Å c=18.6563(2)Å
α=90.00° β=90.00° γ=90.00°
Lithium Silicide
Li15Si4
Chemistry of Materials (2013) 25, 20 4113
a=10.6322(9)Å b=10.6322(9)Å c=10.6322(9)Å
α=90.00° β=90.00° γ=90.00°
Lithium Silicide
Li15Si4
Chemistry of Materials (2013) 25, 20 4113
a=10.687(7)Å b=10.687(7)Å c=10.687(7)Å
α=90.00° β=90.00° γ=90.00°
Al-doped Lithium Silicide
Al0.63Li14.37Si4
Chemistry of Materials (2013) 25, 20 4113
a=10.6172(4)Å b=10.6172(4)Å c=10.6172(4)Å
α=90.00° β=90.00° γ=90.00°
Al-doped Lithium Silicide
Al0.59Li14.41Si4
Chemistry of Materials (2013) 25, 20 4113
a=10.6640(12)Å b=10.6640(12)Å c=10.6640(12)Å
α=90.00° β=90.00° γ=90.00°
Lithium Silicide
Li4.106Si
Chemistry of Materials (2013) 25, 22 4623
a=4.5246(2)Å b=21.9437(10)Å c=13.2001(6)Å
α=90.00° β=90.00° γ=90.00°
Lithium Silicide
Li4.105Si
Chemistry of Materials (2013) 25, 22 4623
a=4.5467(9)Å b=22.065(4)Å c=13.240(3)Å
α=90.00° β=90.00° γ=90.00°
Cu12K12Sn21
Cu12K12Sn21
Journal of the American Chemical Society (2011) 133, 19758-19768
a=17.6100(5)Å b=17.6100(5)Å c=17.6100(5)Å
α=90.00° β=90.00° γ=90.00°
Cu12Na12Sn21
Cu12Na12Sn21
Journal of the American Chemical Society (2011) 133, 19758-19768
a=16.6253(3)Å b=16.6253(3)Å c=16.6253(3)Å
α=90.00° β=90.00° γ=90.00°
Na5Sn9.72Zn2.28
Na5Sn9.72Zn2.28
Journal of the American Chemical Society (2009) 131, 10246-10252
a=12.7717(7)Å b=10.8042(7)Å c=12.7774(9)Å
α=90.00° β=90.00° γ=90.00°
Sodium Mercury Stannide
Hg2.39Na5Sn9.61
Journal of the American Chemical Society (2009) 131, 10246-10252
a=12.9583(8)Å b=10.9835(7)Å c=12.9596(7)Å
α=90.00° β=90.00° γ=90.00°
Ge16Rb14Zn
Ge16Rb14Zn
Journal of the American Chemical Society (2012) 134, 14450-14460
a=20.8718(6)Å b=7.2103(2)Å c=14.4434(4)Å
α=90.00° β=90.00° γ=90.00°
C42H92.5Cu2Ge4K4N7.5O12
C42H92.5Cu2Ge4K4N7.5O12
Journal of the American Chemical Society (2012) 134, 14450-14460
a=13.5093(6)Å b=15.8892(7)Å c=17.7605(8)Å
α=98.230(4)° β=111.166(4)° γ=107.105(4)°
Rb2Sn11
Rb2Sn11
Journal of the American Chemical Society (2005) 127, 3264-3265
a=24.1162(3)Å b=24.1162(3)Å c=24.1162(3)Å
α=90.00° β=90.00° γ=90.00°
P4Si0.67,9.33(Li)
P4Si0.67,9.33(Li)
Journal of the American Chemical Society (2019) 141, 36 14200-14209
a=5.9253(7)Å b=5.9253(7)Å c=5.9253(7)Å
α=90° β=90° γ=90°
P4Si0.67,9.33(Li)
P4Si0.67,9.33(Li)
Journal of the American Chemical Society (2019) 141, 36 14200-14209
a=5.93927Å b=5.93927Å c=5.93927Å
α=90.0000° β=90.0000° γ=90.0000°
(C39H103Ge9P1Si12)3,(C7H8)3
(C39H103Ge9P1Si12)3,(C7H8)3
Journal of the American Chemical Society (2017)
a=23.694(5)Å b=25.662(5)Å c=38.749(8)Å
α=90° β=91.82(3)° γ=90°
P4Si0.67,9.33(Li)
P4Si0.67,9.33(Li)
Journal of the American Chemical Society (2019) 141, 36 14200-14209
a=5.91566(6)Å b=5.91566(6)Å c=5.91566(6)Å
α=90.00000° β=90.00000° γ=90.00000°
Na2Sn5Zn
Na2Sn5Zn
Journal of the American Chemical Society (2013) 135, 10654-10663
a=6.4510(10)Å b=6.4510(10)Å c=6.2370(10)Å
α=90.00° β=90.00° γ=120.00°
Na2Sn5Zn
Na2Sn5Zn
Journal of the American Chemical Society (2013) 135, 10654-10663
a=6.3360(10)Å b=6.3360(10)Å c=22.3820(10)Å
α=90.00° β=90.00° γ=90.00°
NaSn2
NaSn2
Inorganic Chemistry (2005) 44, 477-479
a=13.3916(3)Å b=6.8541(2)Å c=15.4889(4)Å
α=90.00° β=102.5281(11)° γ=90.00°
BiKPb
BiKPb
Inorganic Chemistry (2005) 44, 7423-7430
a=9.5719(11)Å b=9.5719(11)Å c=9.5719(11)Å
α=90.00° β=90.00° γ=90.00°
Strontium Barium Bismuthide
Ba1.08Bi3Sr0.92
Inorganic Chemistry (2008) 47, 3594-3602
a=15.887(3)Å b=6.8930(14)Å c=6.7170(13)Å
α=90.00° β=90.00° γ=90.00°
Strontium Barium Bismuthide
Ba0.86Bi3Sr1.14
Inorganic Chemistry (2008) 47, 3594-3602
a=15.881(3)Å b=6.8883(14)Å c=6.7040(13)Å
α=90.00° β=90.00° γ=90.00°
Strontium Barium Bismuthide
Ba0.45Bi3Sr1.55
Inorganic Chemistry (2008) 47, 3594-3602
a=15.745(3)Å b=6.8294(14)Å c=6.6469(13)Å
α=90.00° β=90.00° γ=90.00°
Sn4Sr
Sn4Sr
Inorganic Chemistry (2003) 42, 8748-8754
a=4.6179(9)Å b=17.372(4)Å c=7.0602(14)Å
α=90.00° β=90.00° γ=90.00°
Ba2Bi3
Ba2Bi3
Inorganic Chemistry (2004) 43, 6124-6126
a=4.8186(15)Å b=7.989(4)Å c=9.982(3)Å
α=90.00° β=90.00° γ=90.00°
Ba2BiSb2
Ba2BiSb2
Inorganic Chemistry (2004) 43, 6124-6126
a=4.8026(10)Å b=7.6878(15)Å c=9.900(2)Å
α=90.00° β=90.00° γ=90.00°
Na1.17Sn2
Na1.17Sn2
Inorganic Chemistry (2003) 42, 5474-5476
a=13.375(3)Å b=9.3294(19)Å c=17.976(4)Å
α=90.00° β=90.15(3)° γ=90.00°
C120Rb8
C120Rb8
Inorganic Chemistry (2010) 49, 2577-2579
a=11.9783(17)Å b=11.9783(17)Å c=11.035(2)Å
α=90° β=90° γ=90°
BaGeNi
BaGeNi
Inorganic Chemistry (2013) 52, 6905-6915
a=5.969(4)Å b=4.1950(10)Å c=11.993(5)Å
α=90.00° β=90.00° γ=90.00°
GeMgNi
GeMgNi
Inorganic Chemistry (2013) 52, 6905-6915
a=6.47418(15)Å b=4.07161(9)Å c=6.94261(17)Å
α=90.00° β=90.00° γ=90.00°
GeNiSr
GeNiSr
Inorganic Chemistry (2013) 52, 6905-6915
a=5.7268(13)Å b=4.1742(9)Å c=11.400(3)Å
α=90.00° β=90.00° γ=90.00°
Lithium Sodium Germanide
(Ge12),(Ge4),(Ge),18(Li),2(Na)
Inorganic chemistry (2014) 53, 4 2096-2101
a=17.0905(4)Å b=17.0905(4)Å c=8.0783(2)Å
α=90.00° β=90.00° γ=120.00°
C36H93Ge6.68N11O12Rb3Si2.32
C36H93Ge6.68N11O12Rb3Si2.32
Inorganic Chemistry (2013) 52, 5861-5866
a=13.9539(3)Å b=15.7757(4)Å c=17.1535(3)Å
α=74.690(2)° β=86.490(2)° γ=66.190(2)°
C54H133.53Ge6.63K3N14.51O18Si2.38
C54H133.53Ge6.63K3N14.51O18Si2.38
Inorganic Chemistry (2013) 52, 5861-5866
a=14.1673(8)Å b=15.1827(8)Å c=22.9666(13)Å
α=80.043(2)° β=84.853(3)° γ=66.496(2)°
C54H133.37Ge4.43K3N14.45O18Si4.57
C54H133.37Ge4.43K3N14.45O18Si4.57
Inorganic Chemistry (2013) 52, 5861-5866
a=14.1056(5)Å b=15.1430(4)Å c=22.8797(6)Å
α=80.150(2)° β=84.792(2)° γ=66.546(3)°
C54H132Ge6.81N14O18Rb3Si2.2
C54H132Ge6.81N14O18Rb3Si2.2
Inorganic Chemistry (2013) 52, 5861-5866
a=14.1713(5)Å b=15.1574(6)Å c=22.9195(9)Å
α=80.251(3)° β=84.862(3)° γ=66.630(4)°
Ge3Li2Zn
Ge3Li2Zn
Inorganic Chemistry (2013) 52, 2809-2816
a=4.1673(6)Å b=4.1673(6)Å c=6.7543(14)Å
α=90.00° β=90.00° γ=120.00°
Li3Sn4Zn2
Li3Sn4Zn2
Inorganic Chemistry (2013) 52, 2809-2816
a=4.5282(2)Å b=4.5282(2)Å c=22.119(2)Å
α=90.00° β=90.00° γ=120.00°
Ge16K14Zn
Ge16K14Zn
Journal of the American Chemical Society (2012) 134, 14450-14460
a=20.1357(5)Å b=6.9934(2)Å c=14.0398(5)Å
α=90.00° β=90.00° γ=90.00°
Ge9Ge9[K(2.2.2crtpt)]6(en)0.5
Ge9Ge9[K(2.2.2crtpt)]6(en)0.5
Inorganic Chemistry (1999) 38, 1866-1870
a=14.3970(10)Å b=19.765(2)Å c=28.898(3)Å
α=87.485(9)° β=79.168(9)° γ=85.415(8)°
Ge9Ge9[K(2.2.2crtpt)]6(en)1.5
Ge9Ge9[K(2.2.2crtpt)]6(en)1.5
Inorganic Chemistry (1999) 38, 1866-1870
a=14.5030(10)Å b=19.924(2)Å c=28.935(3)Å
α=87.430(10)° β=80.850(10)° γ=85.920(10)°
Ge18O4Rb10W
Ge18O4Rb10W
Inorganic Chemistry (2012) 51, 4058-4065
a=14.3230(7)Å b=15.9060(9)Å c=17.8634(9)Å
α=90.00° β=90.078(4)° γ=90.00°
Ge18K10.355Nb0.355O4W0.645
Ge18K10.355Nb0.355O4W0.645
Inorganic Chemistry (2012) 51, 4058-4065
a=13.9079(10)Å b=15.9085(12)Å c=17.3829(13)Å
α=90.00° β=90.050(6)° γ=90.00°
Ge18K10.36Nb0.36O4W0.64
Ge18K10.36Nb0.36O4W0.64
Inorganic Chemistry (2012) 51, 4058-4065
a=13.9079(10)Å b=15.9085(12)Å c=17.3829(13)Å
α=90.00° β=90.050(6)° γ=90.00°
Ge18Nb0.35O4Rb10.35W0.65
Ge18Nb0.35O4Rb10.35W0.65
Inorganic Chemistry (2012) 51, 4058-4065
a=14.361(3)Å b=16.356(3)Å c=17.839(4)Å
α=90.00° β=90.01(3)° γ=90.00°
Ge18Nb0.34O4Rb10.34W0.66
Ge18Nb0.34O4Rb10.34W0.66
Inorganic Chemistry (2012) 51, 4058-4065
a=14.361(3)Å b=16.356(3)Å c=17.839(4)Å
α=90.00° β=90.01(3)° γ=90.00°
Ge18K10O4W
Ge18K10O4W
Inorganic Chemistry (2012) 51, 4058-4065
a=13.8979(2)Å b=15.5390(3)Å c=17.4007(3)Å
α=90.00° β=90.1880(10)° γ=90.00°
AgGe4Li12
AgGe4Li12
Inorganic chemistry (2016) 55, 2 822-827
a=8.0420(2)Å b=15.1061(4)Å c=4.48670(10)Å
α=90° β=90° γ=90°
BaGe2Ni2
BaGe2Ni2
Inorganic chemistry (2017) 56, 3 1173-1185
a=8.3901(3)Å b=11.3249(4)Å c=4.2950(2)Å
α=90° β=90° γ=90°
Ba,Ge2,Ni2
Ba,Ge2,Ni2
Inorganic chemistry (2017) 56, 3 1173-1185
a=4.26654(8)Å b=4.26654(8)Å c=11.2544(2)Å
α=90.00000° β=90.00000° γ=90.00000°
Ag2Ge2Li4
Ag2Ge2Li4
Inorganic chemistry (2015) 54, 3 1152-1158
a=4.44170(10)Å b=4.44170(10)Å c=42.7104(17)Å
α=90.00° β=90.00° γ=120.00°
Ag20Ge40Li50.55
Ag20Ge40Li50.55
Inorganic chemistry (2015) 54, 3 1152-1158
a=9.7606(2)Å b=9.7606(2)Å c=18.4399(8)Å
α=90.00° β=90.00° γ=90.00°
C28H68Ge9K2N8O8Rb2
C28H68Ge9K2N8O8Rb2
Zeitschrift für Kristallographie - New Crystal Structures (2003) 218, 3 370-372
a=16.864(3)Å b=12.091(2)Å c=26.466(5)Å
α=90.00° β=97.28(3)° γ=90.00°
C48H120Ge18K6N16O12
C48H120Ge18K6N16O12
Zeitschrift für Kristallographie - New Crystal Structures (2003) 218, 4 461-463
a=9.4080(19)Å b=13.606(3)Å c=19.507(4)Å
α=84.74(3)° β=81.35(3)° γ=80.18(3)°
C28H68Cs2K2N8O8Sn9
C28H68Cs2K2N8O8Sn9
Zeitschrift für Kristallographie - New Crystal Structures (2003) 218, 4 455-457
a=13.897(3)Å b=16.091(3)Å c=26.432(5)Å
α=90.00° β=91.03(3)° γ=90.00°
C27H60K4N3O12Sn9
C27H60K4N3O12Sn9
Zeitschrift für Kristallographie - New Crystal Structures (2003) 218, 4 458-460
a=10.410(2)Å b=25.659(5)Å c=20.636(4)Å
α=90.00° β=102.56(3)° γ=90.00°