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Selenidogermanate

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Type of chemical compound

Selenidogermanates are compounds with anions with selenium bound to germanium. They are analogous with germanates, thiogermanates, and telluridogermanates.

List

name formula formula weight crystal

system

space

group

cell dimensions volume density comment ref
GeSe2
Ge4Se9 orthorhombic Pca21 a 17.8204 b 7.0029 c 12.0854
Li3Ge3Se6 triclinic P1 a 6.7728 b 8.6804 c 10.6300 α 74.519° β 76.334° γ 69.185°
·4.33H2O monoclinic P21 a=10.2246 b=20.4503 c=28.7242 β=97.850°
{Li4(thf)12}Ge4Se10 monoclinic C2/c a=24.845 b =12.692 c=25.625 β=119.00°
tetragonal I4 a=9.103 c =15.130
22Ge2Se6 monoclinic P21/n a 13.503 b 7.777 c 19.583 β 106.03°
(N2H5)4Ge2Se6 tetragonal I41cd a = 12.708 c = 21.955 Z = 8
22 triclinic P1 a = 7.805, b = 10.747, c = 11.445, α = 110.33°, β = 97.19°, γ = 92.62° V = 889.0
tetrakis(Tripropylammonium) hexakis(μ2-selenido)-tetrakis(selenoxo)-tetra-germanium(iv) monoclinic P21/c a 18.759 b 16.104 c 21.211 β 108.52°
(C2C1Im)4 1524.63 tetragonal P42/n a=13.675 c=12.042 Z=2 2251.9 2.249 yellowish
1-Ethyl-3-methyl-imidazolium (C2C1Im)6; 2747.96 triclinic P1 a=10.2607 b=17.6852 c=21.994 α=100.889

β= 95.600  γ=105.240 Z=2

3735.5 2.443 yellowish
(C2C1Im)6 2747.96 monoclinic P121/c1 a=22.206 b=9.544 c=36.823 β=105.37 Z=4 7524.8 2.426 yellow
(C2C1Im)8 4893.34 monoclinic C12/c1 a=20.527 b=28.744 c=19.720 β=94.640 Z=4 11597 2.803 yellow
2(C2C1Im)6 7340.01 monoclinic P121/n1 a=14.834 b=30.647 c=20.465 β=107.603 Z=2 8868 2.749 red
(C4C1im)2{} monoclinic P21/n a 9.9685 b 26.2588 c 13.9736 β 98.766°
Na2GeSe3 monoclinic P21/c a =7.097 b=16.068 c=6.073 β =113.69° Z=4 3.72 yellow
Na4GeSe4 orthorhombic Pnma a = 28.518 b=9.447 c=7.128 Z=8 orange-yellow
Na4 orthorhombic Cmcm a=13.507 b=13.363 c=11.034 Z=4 1881.6
Na4Ge(Se2)4 red
Na6Ge2Se6 monoclinic P21 a = 8.367 b = 11.924 c = 8.158 β = 118.6°
Na6Ge2Se7 monoclinic C2/c a=9.451 b=10.914 c=15.874 β=104.7° 3.51 yellow
Na8Ge4Se10 triclinic P1 a = 7.074 b = 8.098 c = 10.657 α = 73.4° β = 70.8° γ= 81.7°
Na8Ge4Se10 monoclinic P21/c a = 13.104 b=12.057 c=14.101 β= 92.9° Z=4 3.77 orange yellow
monoclinic C2 a = 12.862, b = 11.205, c = 8.141 Å, β = 107.40°
Na4Ge2Se6 · 16 H2O monoclinic P21/c a = 9.894 b = 11.781 c = 12.225 β = 92.90° Z = 2
Na6Ge2Se6 · 4 CH3OH
Na3GeSe3Br
Mg2GeSe4 437.05 orthorhombic Pnma a 13.50 b 7.85 c 6.37 Z=4 675 4.302 yellow
Li2MgGeSe4 orthorhombic Pmn21 a = 8.2961 b = 7.0069 c = 6.6116, Z = 2 384.33 3.686 yellow
Na4MgGe2Se6 735.21 monoclinic C2 a 7.722 b 11.994 c 7.096 β 106.66° Z=2 629.7 3.878 orange-yellow
K2GeSe4 monoclinic P21/c a=11.989 b=8.275 c=8.915 β=106.38° Z=4 848.8 3.65 orange
K2Ge4Se8 monoclinic P21/c a=7.3752 b=12.239 c=17.468 β=96.102°, Z=4 1156.8 band gap 1.8 eV
K4 cubic P43n a=13.1893
triclinic P1 a 7.8695 b 7.9576 c 12.314, α 80.24° β 87.66° γ 74.07°
monoclinic P21/c a 14.583 b 8.3858 c 14.17 β 96.27°
K6Ge2Se6 monoclinic C2/c a=9.076 b=12.851 c=8.480 β=116.76°
2 monoclinic P21/n a 8.733 b 13.432 c 13.583 β 91.486° Z=4 1592.8 2.256 red
2 monoclinic P21/n a 9.0574 b 14.209 c 13.1189° β 91.384° Z=4 1687.8 2.232 red
triclinic P1 a 9.448 b 10.178 c 10.436 α 109.090° β 104.169° γ 111.520° Z=1 802.7 2.271 brown
Na2MnGe2Se6 1439.72 tetragonal I4/mcm a = 7.772 c = 19.077 Z = 2 1152.3 4.150 @153K band gap 1.93 eV; brown
Na8Mn2(Ge2Se6)2 monoclinic C2 a 7.727 b 11.943 c 7.085 β 106.682° band gap 1.95 eV
K2MnGe2Se6 tetragonal I4/mcm a =8.1315 c =18.877
2Ge2Se6 monoclinic P21/n a 9.058 b 16.319 c 11.628 β 92.264°
(enH2)(Ge2Se7)2 orthorhombic Pbca a 15.816 b 13.638 c 24.677
2Ge2Se7 monoclinic P21/c a 16.489 b 14.524 c 15.860 β 101.03°
tetragonal I 41/a a=26.387 c 9.9435
tetragonal I4 a=8.988 c=15.49
Bis(trimethylammonium) decaselenidotetragermanatomanganate(II) 2 tetragonal I4 a 9.559 c 14.808
2Ge2Se6 monoclinic P21/n a 12.426 b 9.312 c 15.385 β 101.422°
tetragonal I 41/a a 26.285 c 9.882
K2FeGe3Se8 monoclinic P21 a 7.409 b 12.268 c 34.974 β 96.04° band gap 1.95 eV
2Ge2Se5(Se2) monoclinic P21/c a 15.741 b 14.463 c 16.390 β 103.03°
tetragonal I41/a a=26.001 c=9.708
triethylenetetramine 2Ge4Se10·0.5H2O monoclinic P21/c a 21.202 b 13.345 c 20.872 β 107.46°
(enH2)5·en cubic Pa3 a=a 20.8113 Z=12
6·0.25H2O Im3 a=22.43070
0.75Cu1.25GeSe3 tetragonal P421m a=12.9345 c 8.9057
decakis(1-ethyl-3-methyl-1H-imidazol-3-ium) hexakis(μ-cyanido)-nonatriacontakis(μ-selenido)-selenido-hepta-copper(i)-hexadeca-germanium(iv)-penta-sodium (C2C1Im)10 triclinic P1 a 19.2790 b 20.4268 c 23.2357 α 105.275° β 93.657° γ 115.206° Z=2 7822.6 2.610 red
decakis(1-ethyl-3-methyl-1H-imidazol-3-ium) hexakis(μ-cyanido)-nonatriacontakis(μ-selenido)-selenido-hepta-copper(i)-hexadeca-germanium(iv)-penta-sodium (C2C1Im)10 6147.36 triclinic P1 a 20.3454 b 20.8202 c 23.120 α 72.172° β 68.184° γ 60.802° Z=2 7842.1 2.472 red
1,2-dap = 1,2-diaminopropane monoclinic P21/c a 6.673 b 18.210 c 15.070 β 96.078°
monoclinic P21/c a 9.6327 b 20.6934 c 10.3704 β 100.646° band gap 1.69 eV
tren = tris(2-aminoethyl)amine 22 orthorhombic P212121 a 9.8574 b 13.0311 c 32.77
2Ge2Se5(Se2) monoclinic P21/c a=15.741 b=14.463 c=16.390 β=103.03(3)°
{Ni(tepa)}2(μ-Ge2Se6) tetragonal I41/a a=26.001 c=9.7079
0.75Cu1.25GeSe3 tetragonal P421m a 12.9345 c 8.9057
Na2ZnGe2Se6 tetragonal I4/mcm a 7.757 c 18.734 band gap 2.36 eV
Cu2ZnGeSe4 tetragonal I4 band gap 1.38; air stable; SHG 43 pm/V at λ = 2900 nm
Cu4ZnGe2Se7 monoclinic C2 a 12.3443 b 5.6195 c 8.7904 β 98.693° band gap 0.91 eV; air stable
N-(2-aminoethyl)piperazine (H2NC4H8NCH2CH2NH2)(HNCH2CH2NH2)3Zn2Ge2Se8 orthorhombic P21212 a=18.928 b=30.849 c=6.3954
2Ga4Se8Ge4 monoclinic P21/c
NaGaGe3Se8 monoclinic P21/c a 7.233 b 11.889 c 17.550 β 101.75° Z=4 1477.5 4.235 orange
K2Ga2Ge2Se8 monoclinic P21/c a 7.3552 b 12.4151 c 17.6213 β 97.026° Z=4 1597.02 4.136 yellow
K3Ga3Ge7Se20 2413.79 monoclinic P21/c a 7.0520 b 39.033 c 6.9488 β 90.433° Z=2 1912.67 4.191 orange
K3Ga3(Ge4.95Si2.05)Se20 monoclinic Pc a 7.0101 b 38.928 c 6.9594 β 90.531°
Rb2GeSe4 559.4 monoclinic P2/m a=7.390 b=3.704 c=8.623 β=104.87 Z=1 228.1 4.07 orange-brown
Rb4Ge4Se10 monoclinic C2/c a = 16.095 b = 16.09 c = 9.390 β= 105.79°
Rb4Ge4Se12 orthorhombic Pna21 a 14.870 b 13.800 c 12.445 Z=4 2554 4.109 red
Rb4Ge4Se10 • CH3OH 1453.9 monoclinc C2 a=17.099 b=9.287 c=9.503 β=118.49 Z=2 1326.3 3.64 yellow
Rb2MnGe3Se8 orthorhombic P212121 a 7.2756 b 12.1668 c 16.8351
Rb2·3H2O tetragonal
Rb3(AlSe2)3(GeSe2)7 monoclinic P21/c a = 7.0580 b = 39.419 c = 7.0412 β = 90.360° Z = 2 #190K; band gap 2.4 eV
RbGaGeSe4 orthorhombic Pnma a=17.5750 b= 7.4718 c= 12.4449 Z=8 1634.23 4.419 colourless; air sensitive
γ-Sr2GeSe4 orthorhombic Ama2 a = 10.284 b = 10.543 c = 7.411 Z=4
Strontium Selenogermanate(III) Sr2Ge2Se5 monoclinic P21/n a=8.445 b=12.302 c=9.179 β=93.75° Z=4 Ge-Ge bond
tepa=tetraethylenepentamine (H2peha){2(μ-Ge2Se6)}Cl2 triclinic P1 a 9.1861 b 17.3698 c 19.5422 α 103.218° β 95.414° γ 101.439°
Y2(tepa)2(μ-OH)2(μ-Ge2Se6)]·H2O monoclinic C2/c a 21.87 b 12.245 c 18.724 β 127.58°
AgxNa(6-x)Ge2Se7 x=1.76
AgxNa(8-x)Ge4Se10 C2/c
K2Ag2GeSe4 orthorhombic Fddd a 6.613 b 13.776 c 21.822
Ag2FeGeSe4 orthorhombic
AgGaGeSe4 tetragonal I42d a = 5.8056 c = 10.349 348.81 band gap 2.27 eV
Rb2Ag2GeSe4 1579.76 orthorhombic Fddd a 6.5943 b 13.9740 c 22.627
RbAg3Ga8Se14 monoclinic Cm a 12.9155 b 11.7376 c 9.6693 β 116.367°
Ag2Sr3Ge2Se8 cubic I43d
Rb3·2H2O
Li7Cd4.5Ge4Se16 orthorhombic Pna21 a 14.165 b 8.2990 c 6.6869 band gap 2.18 eV; melt 985K
Na2CdGe2Se6 monoclinic Cc a 7.589 b 13.182 c 12.069 β 98.829° SHG 2×AgGaS2 at 2.09 μm
K2CdGe3Se8 1040.05 monoclinic P21 a=7.6069 b=12.4016 c=17.6585 β=95.306° Z=4 1658.71 4.165 brownish yellow
SrCdGeSe4 orthorhombic Ama2 a = 10.8245 b = 10.6912 c = 6.6792 Z=4 red; band gap 1.9 eV; melt 851; SHG 5× AgGaS2
2In4Se8Ge4 monoclinic P21/c a 7.642 b 12.470 c 18.222 β 95.214°
KInGeSe4 monoclinic P21/c a=7.6108 b=12.4473 c=18.0896 β=97.238° Z=8 1700.0 4.239 yellow
RbInGeSe4 orthorhombic Pnma a=17.9948 b=7.6908 c=12.6003 Z=8 1743.8 4.475 yellow
K3Ga3(Ge6.17Sn0.83)Se20 monoclinic Pc a 7.0843 b 39.404 c 7.0212 β 90.567°
Na9Sb(Ge2Se6)2 monoclinic C2/c a = 8.95 b = 24.33 c = 7.066 β = 122.10° Z=2 1303 3.992 red
Sr3GeSb2Se8 orthorhombic Pnma a = 12.633 b = 4.301 c = 28.693 Z = 4 1558.8 band gap 0.75 eV
Cs4Ge2Se6 monoclinic P21/n a 7.6295 b 9.6884 c 19.773 β=98.78°
Cs4Ge2Se8 1308.5 monoclinic C2 a=17.503 b=9.549 c=9.751 β=118.16° Z=2 1436.8 3.87 orange-yellow
Cs4Ge4Se10 monoclinic C2/c a = 16.348 b = 16.49 c = 9.771 β = 107.10°
Cs4Ge4Se10 · 2CH3OH 1675.7 monoclinic C2/m a=15.278 b=7.624 c=10.090 β=121.71° Z=2 999.8 4.34 yellow
Cs4Ge4Se12 1769.52 orthorhombic Pna21 a 15.193 b 13.944 c 12.845 Z=4 2721.4 4.319 red
(C4C1C1im)7{} cubic P43m a=15.446 Cs in a tetrahedron
heptakis(1-ethyl-3-methyl-1H-imidazol-3-ium) hexatriacontakis(μ-selenido)-tetraselenido-cesium-tetra-germanium(ii)-hexadeca-germanium(iv) (C2C1Im)7 4831.2 orthorhombic P212121 a 18.1595 b 18.5017 c 36.632 Z=4 12307.8 2.980 yellow
Cs2MgGe3Se8 orthorhombic P212121 a 7.6635 b 12.7242 c 17.7724
Cs 693.57 monoclinic P21/n a=11.3115 b=12.3519 c=11.4514 β =93.359 Z=4 1597.2 2.884 black
Cs2MnGe3Se8 orthorhombic P212121 a 7.6376 b 12.648 c 17.762
Cs2·3H2O tetragonal
Cs2Cu2GeSe4 monoclinic C2/c a 7.8231 b 23.953 c 6.0197 β 113.75°
Cs2ZnGe3Se8 orthorhombic P212121 a 7.5756 b 12.6191 c 17.6543
CsGaGeSe4 orthorhombic Pnma a= 17.7666 b= 7.5171 c= 12.6383 Z=8 1687.9 4.652 colourless
Cs2Ge3Ga6Se14 P3m1 a = 7.6396 c =13.5866 Z = 1 686.72 dark red
(Cs6Cl)2Cs5 tetragonal I4/m a 14.3870 c 28.012
band gap 2.89 eV; porous layers
(Cs6Br)2Cs5 tetragonal I4/m a 14.3806 c 27.934
(Cs6I0.6Cl0.5)2Cs5 tetragonal I4/m a 14.4267 c 28.082
(Cs5KCl)2Cs5 tetragonal I4/m a=14.3309 c=27.797
(Rb6Cl)2Cs5 tetragonal I4/m a=14.2193 c=27.410 Z=2 5542
(Rb6Br)2Cs5 tetragonal I4/m a=14.4034 c=27.598 Z=2 5646.3
Cs3AsGeSe5 monoclinic C2/m a 14.252 b 7.4 c 10.335 β 124.07°
CsAg3Ga8Se14 monoclinic Cm a 12.9694 b 11.7931 c 9.7011 β 116.805°
Cs3·2H2O
Cs2CdGe3Se8 orthorhombic P212121 7.7048 b 12.6822 c 17.8208
Cs2Ge3In6Se14 R3m a = 7.9951 c = 41.726 band gap 2.08 eV
Ba2Ge2Se5 orthorhombic Pnma a=12.594 b=9.174 c=9.160 Z=4
825.25 orthorhombic Pbca a 13.916 b 15.097 c 16.116 Z=8 3385.9 3.238 light yellow
Ba6Ge2Se12 monoclinic P21/c a = 10.0903 b = 9.3640 c = 25.7643 β = 90.303°
Ba7Ge2Se17 orthorhombic Pnma a = 12.652 b = 20.069 c = 12.3067
Ba4Ge3Se9Cl2 P63 a 10.0924 b 10.0924 c 12.512
Ba3·19H2O 2716.66 triclinic P1 a 12.184 b 15.089 c 15.868 α 88.73° β 73.68° γ 71.06° Z=2 2640.4 3.412 red
Ba3·30H2O rhombohedral R3c a 20.463 c 25.11 Z=6 9109 3.188 orange-red
BaCu2GeSe4 P3121 a 6.5014 c 16.266 red
BaZnGeSe4 orthorhombic Ama2 a = 11.3255 b = 11.2527 c = 6.2917 band gap 2.46 eV
LiBa4Ga5Se12 orthorhombic P421c a 13.0056 b 13.0056 c 6.2671 band gap 2.44 eV
Ba4Ge3Se9Br2 hexagonal P63 a = 10.2345 c = 12.5306
BaCdGeSe4 orthorhombic Fdd2 a=22.167 b=22.768 c=13.303 band gap 1.67 eV; SHG 0.5 × AgGaS2
Ba4GeSb2Se11 1734.01 orthorhombic Cmc21 a = 9.37 b = 25.85, c = 8.80 Z=4 2131 5.404
La4Ge3Se2S10 rhombohedral R3c a=19.5575 c=8.1468 2698.6 4.605 Yellow-orange
La4Ge3Se4S8 rhombohedral R3c 2745.3 Yellow-orange
La4Ge3Se6S6 rhombohedral R3c 2792.6 orange
La4Ge3Se8S4 rhombohedral R3c 2845.3 red
La4Ge3Se10S2 rhombohedral R3c 2912.1 red
lanthanum(III) bis Na9La2 monoclinic C12/m1 a =7.974 b=12.337 c=7.114 β=107.101° Ζ=1 669.0 orange
Ba4LaSbGe3Se13 monoclinic P21/c a=16.3330 b=12.5115 c=13.0321 β=103.457° Z=4 2590.0 red; band gap 2.0 eV
[Ce4(tepa)4(μ-GeSe4)(μ-GeSe5)(μ-Ge2Se6) triclinic P1 a 12.273 b 16.624 c 18.281 α 91.264° β 101.034° γ 96.497°
KCeGeSe4 monoclinic P21 a = 6.852 b = 7.025 c = 9.017 β = 108.116° Z = 2
Pr(teta)(tren)Cl]2(en) triclinic P1 a 10.3153 b 10.4707 c 14.0511 α 99.606° β 92.679° γ 119.146°
Nd(teta)(tren)Cl]2(en) triclinic P1 a 10.2840 b 10.4774 c 14.0341 α 99.655° β 92.651° γ 119.161°
Na9Sm(Ge2Se6)2 monoclinic C2/m a = 7.916 b = 12.244 c = 7.105 β = 106.99° Z = 1 658.6
Sm2(μ-OH)2(tepa)2(μ-Ge2Se6) monoclinic P21/n a 12.10 b 11.41 c 12.71 β 92.81°
Sm(teta)(tren)Cl]2(en) triclinic P1 a 10.3327 b 10.482 c 14.003 α 77.816° β 87.499° γ 60.62°
NaSmGeSe4·0.25Na2Se monoclinic C2/c a 22.508 b 11.0307 c 6.8261 β 103.038°
KSmGeSe4 monoclinic P21 a = 6.774 b = 6.994 c = 8.960 β = 108.225° Z = 2 403.2
RbSmGeSe4 orthorhombic P212121 a = 6.7347 b = 7.0185 c = 17.723 Z=4 837.7
CsSmGeSe orthorhombic P212121 a=6.707 b=7.067 c=18.334 Z=4 869.1
Eu2GeSe4 monoclinic P21 a = 6.964 b = 7.055 c = 8.400 β = 108.12° Z = 2 deep red
Eu2GeSe4 monoclinic P21/m a = 6.969 b = 7.059 c = 8.516 β = 107.99° Z = 2 @673K
Eu2Ge2Se5 monoclinic P21/n a = 8.421 b = 12.235 c = 9.127 β = 93.67° Z = 4 deep red
{Eu(en)3}2(μ-OH)2]Ge2Se6 monoclinic P21/n a 10.062 b 11.538 c 15.227 β 98.470°
Eu(teta)(tren)Cl]2(en) triclinic P1 a 10.364 b 10.549 c 14.1157 α 77.299° β 87.606° γ 60.697°
{Eu(tepa)(μ-OH)}2(μ-Ge2Se8) monoclinic P21/n a 12.384 b 11.697 c 12.965 β 94.107°
Na2EuGeSe4 cubic I43m a=7.3466 Z=2
Na0.75Eu1.625GeSe4 cubic I43d a=14.7065 Z=16
K2EuGeSe5 monoclinic P21/c a = 11.8056 b = 9.9630 c = 8.9456 β = 91.195° Z = 4 1051.9 4.404 @167K; band gap 1.84 eV; Eu(II)
EuCdGeSe4 orthorhombic Ama2 a 10.7525 b 10.6275 c 6.6740 Z=4 762.6 5.685 red; band gap 2.25 eV; SHG 3.8 × AgGaS2
Gd(teta)(tren)Cl]2(en) triclinic P1 a 10.310 b 10.495 c 14.055 α 77.50° β 87.51° γ 60.81°
{Gd(tepa)(μ-OH)}2(μ-Ge2Se8) monoclinic P21/n a 12.316 b 11.667 c 12.868 β 93.70°
{Dy(tepa)(μ-OH)}2(μ-Ge2Se8) monoclinic P21/n a 12.329 b 11.627 c 12.882 β 94.177°
Ge2Se6 a 10.026 b 11.526 c 15.147 β 99.030°
Tb2(tepa)2(μ-OH)2(μ-Ge2Se8) monoclinic P21/n a 12.228 b 11.587 c 12.782 β 93.458°
Tb(teta)(tren)Cl]2(en) triclinic P1 a 10.2303 b 10.4499 c 14.0083 α 99.655° β 92.737° γ 119.069°
·0.5H2O monoclinic C2/c a 22.007 b 12.3363 c 18.2590 β 125.196°
Ge2Se6 monoclinic P21/n a 9.997 b 11.550 c 15.109 β 99.289°
Ge2Se6 monoclinic P21/n a 11.920 b 11.583 c 13.691 β 98.154°
Ho2(μ-OH)2(tepa)2(μ-Ge2Se6) orthorhombic Pbca a 12.1791 b 13.487 c 20.346
(H2peha){2(μ-Ge2Se6)}Cl2 triclinic P1 a 9.1544 b 17.382 c 19.443, α 102.994° β 95.306° γ 101.406°
(H3O) orthorhombic Pccn a 13.7846 b 14.3998 c 17.9221
Tm2(tepa)2(μ-OH)2(μ-Ge2Se6) orthorhombic Pbca a 12.1702 b 13.528 c 20.281
Li2HgGeSe4 602.90 orthorhombic Pna21 a=14.150 b=8.260 c=6.692 Z=4 782.2 5.119 yellow
Na2Hg3Ge2Se8 1424.61 tetragonal P4c2 a=9.1938 c=9.5437 Z=2 806.69 5.865 red
SrHgGeSe4 orthorhombic Ama2 a 10.8375 b 10.7456 c 6.6377 NLO 5 × AgGaS2
BaHgGeSe4 orthorhombic Ama2 a 11.255 b 11.033 c 6.685 NLO 5 × AgGaS2
EuHgGeSe4 orthorhombic Ama2 a 10.6530 b 10.5990 c 6.5986 band gap; SHG 3.1 × AgGaS2
TlGaGeSe4 orthorhombic Pnma a= 17.4742 b= 7.4105 c= 11.9406 Z=8 1546.22 5.692 red
Tl2Ga2GeSe6 tetragonal I4/mmc a = 8.0770 c = 6.2572 Z = 4
TlInGeSe4 702 monoclinic P21/c a= 7.586 b= 12.134 c=18.023 β= 96.037° Z=8 1649.8 5.653 yellow
TlInGe2Se6 trigonal R3 a = 10.1798 c = 9.2872 band gap 2.38 eV
α-Pb2GeSe4
Na0.5Pb1.75GeSe4 cubic I43d a = 14.662
PbGa2GeSe6 melt 687 °C; phase transition 522 °C
Pb4Ga4GeSe12
Pb3Ga2GeSe8 P421c melt incongruently 656 °C
Sr1.31Pb0.69GeSe4 orthorhombic Ama2 a = 10.31220 b = 10.39320 c = 7.42140
Sr0.19Pb1.81GeSe4 I42d a = 14.6177
Sr12.6Pb6.4Ge11Se44 hexagonal P63 a = 19.9867 c = 12.0546 4170.28 black; band gap 1.8 eV
Ag0.5Pb1.75GeS3Se band gap 2.0 eV

References

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Salts and covalent derivatives of the selenide ion
H2Se
H2Se2
+H
-H 		He
Li2Se Be SexByOz CSe2
OCSe
(CH3)2Se 		(NH4)2Se O F Ne
Na2Se MgSe Al2Se3 Si PxSey
-P 		+S Cl Ar
K2Se CaSe Sc2Se3 TiSe2 V CrSe
Cr2Se3 		MnSe
MnSe2 		FeSe CoSe NiSe Cu2Se
CuSe 		ZnSe GaSe
Ga2Se3
-Ga 		GeSe
GeSe2
-Ge 		As2Se3
As4Se3 		Se
n 		Br Kr
Rb2Se SrSe Y2Se3 Zr NbSe2
NbSe3 		MoSe2 Tc Ru Rh Pd Ag2Se CdSe InSe
In2Se3 		SnSe
SnSe2
-Sn 		Sb2Se3 Te +I Xe
Cs2Se BaSe * LuSe
Lu2Se3 		Hf TaSe2 WSe2
WSe3 		ReSe2 Os Ir PtSe2 Au HgSe Tl2Se PbSe Bi2Se3 Po At Rn
Fr Ra ** Lr Rf Db Sg Bh Hs Mt Ds Rg CnSe Nh Fl Mc Lv Ts Og
 
* LaSe
La2Se3 		CeSe
Ce2Se3 		PrSe
Pr2Se3 		NdSe
Nd2Se3 		Pm SmSe
Sm2Se3 		EuSe
Eu2Se3 		GdSe
Gd2Se3 		TbSe
Tb2Se3 		DySe
Dy2Se3 		HoSe
Ho2Se3 		ErSe
Er2Se3 		TmSe
Tm2Se3 		YbSe
Yb2Se3
** Ac ThSe2 Pa USe2 Np PuSe Am Cm Bk Cf Es Fm Md No
Germanium compounds
Ge(II)
Ge(IV)
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