Mineralogy Database

X-Ray Diffraction Table

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Minerals Arranged by X-Ray Powder Diffraction

See Help on X-Ray Diffraction.

Powder X-ray Diffraction (XRD) is one of the primary techniques used by mineralogists and solid state chemists to examine the physico-chemical make-up of unknown materials. This data is represented in a collection of single-phase X-ray powder diffraction patterns for the three most intense D values in the form of tables of interplanar spacings (D), relative intensities (I/Io), mineral name and chemical formulae

The XRD technique takes a sample of the material and places a powdered sample in a holder, then the sample is illuminated with x-rays of a fixed wave-length and the intensity of the reflected radiation is recorded using a goniometer. This data is then analyzed for the reflection angle to calculate the inter-atomic spacing (D value in Angstrom units - 10-8 cm). The intensity(I) is measured to discriminate (using I ratios) the various D spacings and the results are compared to this table to identify possible matches. Note: 2 theta (Θ) angle calculated from the Bragg Equation, 2 Θ = 2(arcsin(n λ/(2d)) where n=1

For more information about this technique, see X-Ray Analysis of a Solid or take an internet course at Birkbeck College On-line Courses.  Many thanks to Frederic Biret for these data.

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Found 133 Records, Sorted by D1 using 1.54056 - CuKa1 for 2θ WHERE (d1 > 6.9678 AND d1 < 7.2522)
D1
Å (2θ)
I1
%)
D2
Å (2θ)
I2
(%)
D3
Å (2θ)
I3
(%)
Mineral Formula
6.972(12.69) 200 3.661(24.29) 100 20.898(4.22) 100 Straczekite (Ca,K,Ba)(V5+,V4+)8O20·3H2O
6.974(12.68) 200 5.252(16.87) 136 3.596(24.74) 122 IMA2008-035 CeSiO4
6.976(12.68) 200 5.296(16.73) 70 4.218(21.04) 44 Rosiaite PbSb+++++2O6
6.980(12.67) 200 5.698(15.54) 70 4.656(19.05) 40 Anhydrite CaSO4
6.980(12.67) 200 6.440(13.74) 160 3.978(22.33) 120 Treasurite Ag7Pb6Bi15S32
6.980(12.67) 200 5.120(17.31) 180 5.360(16.53) 180 Tungstite WO3·(H2O)
6.986(12.66) 200 4.278(20.75) 110 3.648(24.38) 60 Marshite CuI
6.996(12.64) 200 19.560(4.51) 92 19.200(4.60) 76 Nepskoeite Mg4Cl(OH)7·6(H2O)
6.996(12.64) 200 14.416(6.13) 140 5.014(17.67) 100 Luetheite Cu2Al2(AsO4)2(OH)4·(H2O)
6.998(12.64) 200 6.270(14.11) 80 9.800(9.02) 70 Szmikite MnSO4·(H2O)
6.998(12.64) 200 5.404(16.39) 200 9.288(9.51) 110 Pucherite BiVO4
7.000(12.64) 200 4.680(18.95) 100 5.700(15.53) 100 Koenenite Na4Mg4Cl12·Mg5Al4(OH)22
7.000(12.64) 200 5.546(15.97) 180 5.922(14.95) 160 Hydroromarchite Sn3O2(OH)2
7.000(12.64) 200 8.300(10.65) 110 5.340(16.59) 80 Lindgrenite Cu3(MoO4)2(OH)2
7.000(12.64) 200 5.600(15.81) 140 5.320(16.65) 100 Zircophyllite K2(Na,Ca)(Mn,Fe++)7(Zr,Nb)2Si8O26(OH)4F
7.000(12.64) 200 6.060(14.61) 160 5.220(16.97) 120 Yoderite Mg2(Al,Fe+++)6Si4O18(OH)2
7.000(12.64) 200 21.120(4.18) 200 5.560(15.93) 160 Nalivkinite Li2NaFe++7Ti2Si8O24(OH)4F
7.000(12.64) 200 8.600(10.28) 200 9.620(9.19) 200 Halotrichite Fe++Al2(SO4)4·22(H2O)
7.000(12.64) 200 9.520(9.28) 170 9.160(9.65) 130 Mendozite NaAl(SO4)2·11(H2O)
7.000(12.64) 200 4.060(21.87) 180 4.980(17.80) 180 Olekminskite Sr(Sr,Ca,Ba)(CO3)2
7.001(12.63)
-
5.778(15.32)
-
5.729(15.45)
-
Vanadoandrosite-(Ce) (Mn++,Ca)(REE)V+++AlMn++(Si2O7)(SiO4)O(OH)
7.004(12.63) 200 4.066(21.84) 80 11.640(7.59) 70 Millosevichite (Al,Fe+++)2(SO4)3
7.006(12.62) 200 5.032(17.61) 38 9.266(9.54) 30 Serrabrancaite MnPO4·(H2O)
7.010(12.62) 200 9.412(9.39) 200 9.535(9.27) 200 Acuminite SrAlF4(OH)·(H2O)
7.010(12.62) 200 13.216(6.68) 156 10.540(8.38) 120 Uklonskovite NaMg(SO4)F·2(H2O)
7.012(12.61) 200 21.040(4.20) 180 5.556(15.94) 160 Niobophyllite K2Na(Fe++,Mn)7(Nb,Ti)2Si8O26(OH)4(F,O)
7.020(12.60) 200 3.782(23.50) 66 4.758(18.63) 44 Anatase TiO2
7.020(12.60) 200 4.302(20.63) 100 3.670(24.23) 60 Tiemannite HgSe
7.020(12.60) 200 6.564(13.48) 164 6.476(13.66) 142 Stibioclaudetite AsSbO3
7.020(12.60) 200 4.688(18.91) 160 5.560(15.93) 140 Twinnite Pb(Sb,As)2S4
7.020(12.60) 200 21.100(4.18) 180 5.286(16.76) 160 Hydroastrophyllite (H3O,K)2Ca(Fe+++,Mn)5-6Ti2Si8O26(OH)4F
7.020(12.60) 200 8.420(10.50) 200 9.700(9.11) 100 Bilinite Fe++Fe+++2(SO4)4·22(H2O)
7.020(12.60) 200 4.280(20.74) 180 5.840(15.16) 180 Lillianite Pb3Bi2S6
7.020(12.60) 200 5.800(15.26) 180 6.940(12.74) 160 Brookite TiO2
7.020(12.60) 200 5.374(16.48) 140 5.560(15.93) 120 Ericssonite BaMn++2Fe+++O[Si2O7](OH)
7.022(12.60) 200 5.740(15.42) 120 6.206(14.26) 90 Davreuxite MnAl6Si4O17(OH)2
7.024(12.59) 200 6.404(13.82) 156 6.030(14.68) 138 Laffittite AgHgAsS3
7.024(12.59) 200 28.200(3.13) 200 9.420(9.38) 140 Borocookeite Li(1+3x)Al(4-x)(BSi3)O10(OH,F)8 [x = 0-0.33]
7.026(12.59) 200 14.080(6.27) 200 5.028(17.62) 180 Orthochamosite (Fe++,Mg,Fe+++)5Al(Si3Al)O10(OH,O)8
7.030(12.58) 200 8.920(9.91) 86 5.210(17.00) 72 Grossite CaAl4O7
7.032(12.58) 200 6.342(13.95) 160 7.338(12.05) 120 Hashemite Ba(Cr,S)O4
7.032(12.58) 200 4.448(19.94) 140 10.300(8.58) 110 Azurite Cu3(CO3)2(OH)2
7.040(12.56) 200 12.260(7.20) 160 7.140(12.39) 120 Tugtupite Na4AlBeSi4O12Cl
7.040(12.56) 200 15.380(5.74) 190 6.720(13.16) 160 Hoelite (C6H4)2(CO)2
7.040(12.56) 200 5.094(17.39) 162 7.890(11.21) 144 Sarcopside (Fe++,Mn,Mg)3(PO4)2
7.040(12.56) 200 9.640(9.17) 180 7.580(11.66) 70 Apjohnite MnAl2(SO4)4·22(H2O)
7.040(12.56) 200 8.660(10.21) 200 9.680(9.13) 80 Dietrichite (Zn,Fe++,Mn)Al2(SO4)4·22(H2O)
7.040(12.56) 200 14.100(6.26) 200 5.040(17.58) 180 Chamosite (Fe++,Mg,Fe+++)5Al(Si3Al)O10(OH,O)8
7.040(12.56) 200 14.120(6.25) 200 3.850(23.08) 140 Amesite Mg2Al(SiAl)O5(OH)4
7.040(12.56) 200 5.590(15.84) 180 8.380(10.55) 100 Guettardite Pb(Sb,As)2S4
7.054(12.54) 200 6.794(13.02) 142 4.626(19.17) 86 Podlesnoite BaCa2(CO3)2F2
7.060(12.53) 200 5.834(15.17) 120 5.210(17.00) 100 Susannite Pb4(SO4)(CO3)2(OH)2
7.060(12.53) 200 9.380(9.42) 180 5.300(16.71) 160 Thorite ThSiO4
7.060(12.53) 200 5.834(15.17) 120 5.210(17.00) 100 Leadhillite Pb4(SO4)(CO3)2(OH)2
7.060(12.53) 200 22.200(3.98) 160 11.100(7.96) 100 Kahlerite Fe++(UO2)2(AsO4)2·10-12(H2O)
7.062(12.52) 200 20.840(4.24) 180 4.418(20.08) 160 Chelkarite CaMgB2O4Cl2·7(H2O) (?)
7.070(12.51) 200 6.900(12.82) 140 4.106(21.63) 100 Strontianite SrCO3
7.074(12.50) 200 6.112(14.48) 194 5.779(15.32) 192 Geocronite Pb14(Sb,As)6S23
7.074(12.50) 200 7.562(11.69) 130 19.020(4.64) 100 Ferrierite-Na (Na,K)2Mg(Si,Al)18O36·9(H2O)
7.074(12.50) 200 7.562(11.69) 130 19.020(4.64) 100 Ferrierite-Mg (Mg,Na,K)2Mg(Si,Al)18O36·9(H2O)
7.074(12.50) 200 7.562(11.69) 130 19.020(4.64) 100 Ferrierite-K (K,Na)2Mg(Si,Al)18O36·9(H2O)
7.074(12.50) 200 9.390(9.41) 180 5.306(16.69) 120 Thorogummite Th(SiO4)1-x(OH)4x
7.078(12.50) 200 5.212(17.00) 160 4.160(21.34) 100 Santanaite Pb++9Pb++++2CrO16
7.080(12.49) 200 5.200(17.04) 180 3.784(23.49) 160 Montanite Bi2Te++++++O6·2(H2O)
7.080(12.49) 200 7.320(12.08) 200 8.000(11.05) 180 Nuffieldite Pb2Cu(Pb,Bi)Bi2S7
7.080(12.49) 200 6.820(12.97) 180 11.140(7.93) 140 Voltaite K2Fe++5Fe+++3Al(SO4)12·18(H2O)
7.080(12.49) 150 5.306(16.69) 140 6.120(14.46) 110 Ellenbergerite Mg6TiAl6Si8O28(OH)10
7.080(12.49) 200 12.960(6.81) 160 8.480(10.42) 140 Nealite-(H2O) Pb4Fe++(As+++O3)2Cl4·2(H2O)
7.080(12.49) 200 6.820(12.97) 180 5.440(16.28) 100 Kobellite Pb22Cu4(Bi,Sb)30S69
7.084(12.48) 200 12.960(6.81) 160 8.474(10.43) 140 Nealite Pb4Fe++(As+++++O4)2Cl4
7.090(12.47) 200 7.808(11.32) 160 5.838(15.16) 140 Junoite Pb3Cu2Bi8(S,Se)16
7.098(12.46) 200 5.240(16.91) 190 8.374(10.56) 150 Chalcocyanite CuSO4
7.100(12.46) 200 5.014(17.67) 70 4.100(21.66) 46 Alstonite BaCa(CO3)2
7.100(12.46) 200 5.020(17.65) 130 4.096(21.68) 40 Paralstonite BaCa(CO3)2
7.108(12.44) 200 10.962(8.06) 170 6.782(13.04) 126 Ramanite-(Rb) Rb[B5O6(OH)4]·2H2O
7.114(12.43) 200 6.924(12.77) 140 6.844(12.92) 110 Matteuccite NaHSO4·(H2O)
7.116(12.43) 200 6.202(14.27) 164 7.948(11.12) 144 Svenekite Ca(H2AsO4)2
7.118(12.42) 200 14.260(6.19) 94 6.156(14.38) 90 Natronambulite (Na,Li)Mn++4[Si5O14(OH)]
7.120(12.42) 200 3.648(24.38) 150 5.320(16.65) 100 Wakefieldite-(Y) YVO4
7.120(12.42) 200 6.940(12.74) 116 9.600(9.20) 104 Museumite Pb2(Pb,Sb)2S8[Te,Au]2
7.120(12.42) 200 17.100(5.16) 200 10.140(8.71) 120 Metakirchheimerite Co(UO2)2(AsO4)2·8(H2O)
7.120(12.42) 200 3.636(24.46) 110 5.280(16.78) 100 Cahnite Ca2B(AsO4)(OH)4
7.120(12.42) 200 2.164(41.70) 180 2.202(40.95) 180 Gladite PbCuBi5S9
7.120(12.42) 200 4.960(17.87) 160 19.400(4.55) 160 IMA2009-009 KNa2Li(Mg,Fe)2Ti2Si8O24
7.120(12.42) 200 11.980(7.37) 56 8.700(10.16) 46 Mikasaite Fe+++2(SO4)3
7.120(12.42) 200 6.080(14.56) 160 6.400(13.83) 140 Uralolite Ca2Be4(PO4)3(OH)3·5(H2O)
7.120(12.42) 200 3.658(24.31) 180 3.556(25.02) 160 Umangite Cu3Se2
7.120(12.42) 200 5.106(17.35) 140 7.640(11.57) 100 Chenevixite Cu2Fe+++2(AsO4)2(OH)4·(H2O)
7.120(12.42) 200 5.820(15.21) 160 3.558(25.01) 130 Sulphohalite Na6(SO4)2FCl
7.120(12.42) 200 17.620(5.01) 160 11.640(7.59) 100 Cuprocopiapite CuFe+++4(SO4)6(OH)2·20(H2O)
7.122(12.42) 200 5.430(16.31) 78 6.116(14.47) 78 Carlosruizite K6(Na,K)4Na6Mg10(Se++++++O4)12(IO3)12·12(H2O)
7.124(12.41) 200 5.666(15.63) 160 9.346(9.46) 110 Parisite-(Ce) Ca(Ce,La)2(CO3)3F2
7.128(12.41) 200 5.308(16.69) 150 5.922(14.95) 140 Danburite CaB2(SiO4)2
7.138(12.39) 200 5.010(17.69) 160 6.016(14.71) 160 Boromuscovite KAl2(Si3B)O10(OH,F)2
7.138(12.39) 200 6.236(14.19) 160 7.060(12.53) 120 Bismuthinite Bi2S3
7.140(12.39) 200 17.300(5.10) 200 6.620(13.36) 180 Metauranopilite (UO2)6(SO4)(OH)10·5(H2O)
7.140(12.39) 200 17.300(5.10) 200 6.620(13.36) 180 Metauranospinite Ca(UO2)2(AsO4)2·8(H2O)
7.140(12.39) 200 10.060(8.78) 160 17.780(4.97) 160 Heinrichite Ba(UO2)2(AsO4)2·10-12(H2O)
7.140(12.39) 200 6.478(13.66) 154 5.844(15.15) 134 Roedderite (Na,K)2(Mg,Fe++)5Si12O30
7.146(12.38) 200 4.270(20.79) 180 5.616(15.77) 160 Chabourneite (Tl,Pb)21(Sb,As)91S147

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