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 171 Records, Sorted by D1 using 1.54056 - CuKa1 for 2θ WHERE (d1 > 6.7326 AND d1 < 7.0074)
D1
Å (2θ)
I1
%)
D2
Å (2θ)
I2
(%)
D3
Å (2θ)
I3
(%)
Mineral Formula
6.734(13.14) 200 14.480(6.10) 200 6.136(14.42) 160 Bannermanite (Na,K)0.7V+++++6O15
6.734(13.14) 200 20.400(4.33) 200 5.288(16.75) 160 Siderophyllite KFe++2Al(Al2Si2)O10(F,OH)2
6.734(13.14) 200 3.508(25.37) 180 5.184(17.09) 180 Tapiolite-(Mn) (Mn++,Fe++)(Ta,Nb)2O6
6.738(13.13) 200 8.560(10.33) 50 3.670(24.23) 32 Berlinite AlPO4
6.740(13.12) 200 6.520(13.57) 180 7.800(11.33) 60 Rayite (Ag,Tl)2Pb8Sb8S21
6.740(13.12) 200 4.114(21.58) 180 3.512(25.34) 160 Gananite BiF3
6.740(13.12) 200 5.280(16.78) 128 6.620(13.36) 116 Arapovite (U,Th)(Ca,Na)2(K1-x[ ]x)Si8O20·H2O, x=0.5
6.740(13.12) 200 6.360(13.91) 160 17.400(5.07) 120 Sainfeldite Ca5(AsO3OH)2(AsO4)2·4(H2O)
6.740(13.12) 200 20.200(4.37) 200 5.320(16.65) 160 Biotite K(Mg,Fe++)3[AlSi3O10(OH,F)2
6.740(13.12) 200 22.600(3.91) 200 7.720(11.45) 160 Boggsite NaCa2(Al5Si19O48)·17(H2O)
6.740(13.12) 200 4.818(18.40) 170 6.440(13.74) 150 Litidionite KNaCuSi4O10
6.740(13.12) 200 4.040(21.98) 110 5.040(17.58) 110 Kinoshitalite (Ba,K)(Mg,Mn,Al)3Si2Al2O10(OH)2
6.740(13.12) 200 6.920(12.78) 200 8.400(10.52) 180 Bikitaite Li2[Al2Si4O12]·2(H2O)
6.752(13.10) 200 6.406(13.81) 160 5.168(17.14) 140 Lucasite-(Ce) CeTi2(O,OH)6
6.752(13.10) 200 6.772(13.06) 200 17.166(5.14) 200 Sekaninaite (Fe++,Mg)2Al4Si5O18
6.760(13.09) 200 5.680(15.59) 140 7.560(11.70) 140 Dadsonite Pb21Sb23S55Cl
6.760(13.09) 200 7.040(12.56) 200 4.140(21.45) 120 Lausenite Fe+++2(SO4)3·6(H2O)
6.760(13.09) 200 4.354(20.38) 180 4.146(21.41) 160 Xilingolite Pb3Bi2S6
6.760(13.09) 200 4.136(21.47) 110 3.529(25.22) 90 Metacinnabar HgS
6.760(13.09) 200 11.200(7.89) 200 13.600(6.49) 120 Minyulite KAl2(PO4)2(OH,F)·4(H2O)
6.760(13.09) 200 5.806(15.25) 100 5.574(15.89) 90 Minium Pb++2Pb++++O4
6.760(13.09) 200 10.440(8.46) 180 14.640(6.03) 180 Steacyite K1-x(Ca,Na)2ThSi8O20 (x=0.2 to 0.4)
6.760(13.09) 200 3.024(29.51) 160 4.380(20.26) 160 Boromullite Al4.5SiB0.5O9.5
6.760(13.09) 200 5.586(15.85) 60 6.000(14.75) 60 Thadeuite (Ca,Mn++)(Mg,Fe++,Mn+++)3(PO4)2(OH,F)2
6.760(13.09) 200 16.960(5.21) 160 6.300(14.05) 140 Sadanagaite (K,Na)Ca2(Fe++,Mg,Al,Ti)5[(Si,Al)8O22](OH)2
6.760(13.09) 200 5.096(17.39) 180 20.200(4.37) 160 Magnesioastrophyllite K2Na[Na(Fe++,Fe+++,Mn)Mg2]Ti2Si8O26(OH)4F
6.764(13.08) 200 5.362(16.52) 140 3.402(26.17) 100 Dukeite Bi+++24Cr++++++8O57(OH)6(H2O)3
6.770(13.07) 200 6.630(13.34) 156 5.878(15.06) 94 Wilhelmkleinite ZnFe+++3(AsO4)2(OH)2
6.772(13.06) 200 5.106(17.35) 180 5.842(15.15) 160 Souzalite (Mg,Fe++)3(Al,Fe+++)4(PO4)4(OH)6·2(H2O)
6.772(13.06) 200 3.910(22.72) 68 5.246(16.89) 24 Helvite Mn4Be3(SiO4)3S
6.780(13.05) 200 6.856(12.90) 190 4.412(20.11) 120 Mullite Al(4+2x)Si(2-2x)O(10-x) where x =0.17 to 0.59
6.780(13.05) 200 6.820(12.97) 170 4.620(19.20) 80 Ferruccite NaBF4
6.780(13.05) 200 5.732(15.45) 160 5.304(16.70) 140 Francisite Cu3Bi(SeO3)2O2Cl
6.780(13.05) 200 6.440(13.74) 140 8.820(10.02) 140 Gillespite BaFe++Si4O10
6.780(13.05) 100 2.740(32.65) 200 2.760(32.41) 200 Lutecite SiO2
6.780(13.05) 200 5.298(16.72) 100 8.700(10.16) 70 Paramontroseite VO2
6.780(13.05) 200 8.640(10.23) 114 6.260(14.14) 100 Jarandolite Ca[B3O4(OH)3]
6.780(13.05) 200 7.840(11.28) 160 8.080(10.94) 160 Robinsonite Pb4Sb6S13
6.780(13.05) 200 7.080(12.49) 134 11.060(7.99) 96 Zincovoltaite K2Zn5Fe+++3Al(SO4)12·18(H2O)
6.784(13.04) 200 6.228(14.21) 180 4.168(21.30) 66 Joelbruggerite Pb3Zn3Sb+++++As2O13(OH)
6.784(13.04) 200 6.420(13.78) 164 4.460(19.89) 138 Vistepite Mn++4Sn++++B2(SiO4)4(OH)2
6.786(13.04) 200 6.240(14.18) 170 6.376(13.88) 130 Vonbezingite Ca6Cu3(SO4)3(OH)12·2(H2O)
6.786(13.04) 200 5.448(16.26) 140 16.274(5.43) 120 Humberstonite K3Na7Mg2(SO4)6(NO3)2·6(H2O)
6.790(13.03) 200 5.108(17.35) 180 5.850(15.13) 160 Gormanite Fe++3Al4(PO4)4(OH)6·2(H2O)
6.790(13.03) 200 5.638(15.70) 106 5.478(16.17) 96 Tsugaruite Pb4As2S7
6.792(13.02) 200 5.696(15.54) 62 4.156(21.36) 58 Pertlikite K2(Fe++,Mg)2(Mg,Fe+++)4Fe+++2Al(SO4)12·18H2O
6.792(13.02) 200 3.954(22.47) 130 6.546(13.52) 104 Aragonite CaCO3
6.792(13.02) 200 6.710(13.18) 180 5.440(16.28) 160 Madocite Pb17(Sb,As)16S41
6.798(13.01) 200 7.784(11.36) 140 5.924(14.94) 100 Macfallite Ca2(Mn+++,Al)3(SiO4)(Si2O7)(OH)3
6.800(13.01) 200 3.140(28.40) 80 4.160(21.34) 80 Monsmedite H8K2Tl2(SO4)8·11(H2O)
6.800(13.01) 200 5.116(17.32) 120 4.100(21.66) 100 Kuranakhite PbMn++++Te++++++O6
6.800(13.01) 200 11.080(7.97) 180 5.718(15.48) 160 Formicaite Ca(HCOO)2
6.800(13.01) 200 10.620(8.32) 140 5.308(16.69) 118 Turkestanite Th(Ca,Na)2(K1-x,[ ]x)Si8O20·n(H2O)
6.800(13.01) 200 3.500(25.43) 180 4.120(21.55) 160 Vikingite Ag5Pb8Bi13S30
6.800(13.01) 200 9.800(9.02) 180 7.360(12.01) 160 Dashkovaite Mg(HCOO)2·2(H2O)
6.800(13.01) 200 7.040(12.56) 160 5.420(16.34) 140 Tintinaite Pb22Cu+4(Sb,Bi)30S69
6.800(13.01) 200 7.720(11.45) 196 5.820(15.21) 148 Armenite BaCa2Al6Si9O30·2(H2O)
6.800(13.01) 200 5.600(15.81) 160 8.320(10.62) 100 Jagoite (Pb,Na,Ca)3(Fe+++,Mg)Si3O10(Cl,OH)
6.800(13.01) 200 5.680(15.59) 180 3.480(25.58) 120 Hallimondite Pb2(UO2)(AsO4)2
6.800(13.01) 200 5.280(16.78) 120 4.560(19.45) 100 Manganite MnO(OH)
6.800(13.01) 200 6.080(14.56) 180 19.340(4.57) 160 Jamesite Pb2Zn2Fe+++5(AsO4)5O4
6.804(13.00) 200 6.738(13.13) 148 5.630(15.73) 140 Rouxelite Cu2HgPb22Sb28S64(O,S)2
6.810(12.99) 200 6.124(14.45) 112 5.026(17.63) 98 Cobaltkieserite CoSO4·H2O
6.818(12.97) 200 6.662(13.28) 180 9.680(9.13) 180 Kieserite MgSO4·(H2O)
6.820(12.97) 200 11.140(7.93) 180 5.800(15.26) 160 Wairakite CaAl2Si4O12·2(H2O)
6.820(12.97) 200 6.520(13.57) 160 6.120(14.46) 150 Avogadrite (K,Cs)BF4
6.820(12.97) 200 4.540(19.54) 100 13.660(6.47) 80 Cerotungstite-(Ce) (Ce,REE)W2O6(OH)3
6.820(12.97) 200 3.500(25.43) 140 4.080(21.76) 140 Usovite Ba2CaMgAl2F14
6.820(12.97) 200 4.180(21.24) 80 5.700(15.53) 60 Heyrovskyite Pb10AgBi5S18
6.822(12.97) 200 6.504(13.60) 166 10.520(8.40) 136 Sazhinite-(La) Na3La[Si6O15]·2(H2O)
6.824(12.96) 200 4.062(21.86) 120 5.442(16.27) 120 Sakharovaite (Pb,Fe)(Bi,Sb)2S4
6.828(12.95) 200 20.260(4.36) 200 6.396(13.83) 160 Sidpietersite Pb++4(S++++++O3S--)O2(OH)2
6.828(12.95) 200 4.028(22.05) 160 5.786(15.30) 140 Eclarite Pb9(Cu,Fe)Bi12S28
6.832(12.95) 200 5.854(15.12) 128 6.372(13.89) 80 Lukrahnite Ca(Cu,Zn)(Fe,Zn)(AsO4)2(OH,H2O)2
6.836(12.94) 200 5.526(16.03) 190 4.716(18.80) 146 Leningradite PbCu++3(VO4)2Cl2
6.840(12.93) 200 3.806(23.35) 160 4.910(18.05) 140 Brannerite (U,Ca,Ce)(Ti,Fe)2O6
6.840(12.93) 200 6.740(13.12) 130 4.400(20.16) 120 Sillimanite Al2SiO5 = Al[6]Al[4]OSiO4
6.840(12.93) 200 9.540(9.26) 110 6.140(14.41) 90 Gunningite (Zn,Mn)SO4·(H2O)
6.846(12.92) 200 8.040(11.00) 76 7.124(12.41) 62 Pellouxite (Cu,Ag)Pb10Sb12S27(Cl,S)0.6O
6.848(12.92) 200 10.170(8.69) 128 6.810(12.99) 54 IMA2008-022 UO2(OH)2
6.852(12.91) 200 6.756(13.09) 176 5.882(15.05) 108 Aschamalmite Pb6Bi2S9
6.854(12.91) 200 4.034(22.02) 160 5.506(16.08) 150 Moeloite Pb6Sb6S14(S3)
6.854(12.91) 200 6.084(14.55) 160 6.624(13.36) 160 Izoklakeite Pb27(Cu,Fe)2(Sb,Bi)19S57
6.856(12.90) 200 11.000(8.03) 128 3.425(25.99) 122 Eugsterite Na4Ca(SO4)3·2(H2O)
6.856(12.90) 200 6.882(12.85) 200 6.412(13.80) 160 Chervetite Pb2V2O7
6.860(12.89) 200 6.420(13.78) 70 5.366(16.51) 60 Bradaczekite NaCu4(AsO4)3
6.860(12.89) 200 5.850(15.13) 160 11.220(7.87) 160 Analcime NaAlSi2O6·(H2O)
6.860(12.89) 200 6.380(13.87) 130 4.616(19.21) 120 Pellyite Ba2Ca(Fe++,Mg)2Si6O17
6.860(12.89) 200 7.500(11.79) 120 5.468(16.20) 100 Gratonite Pb9As4S15
6.860(12.89) 200 5.626(15.74) 70 7.400(11.95) 70 Jamesonite Pb4FeSb6S14
6.860(12.89) 200 16.660(5.30) 120 5.440(16.28) 100 Ungemachite K3Na8Fe+++(SO4)6(NO3)2·6(H2O)
6.862(12.89) 200 6.670(13.26) 160 13.340(6.62) 120 Vlodavetsite AlCa2(SO4)2F2Cl·4(H2O)
6.880(12.86) 200 5.140(17.24) 160 6.300(14.05) 160 Jinshajiangite Na2K5BaCa(Fe,Mn)8(Ti,Fe,Nb,Zr)4Si8O32(O,F,H2O)6
6.880(12.86) 200 5.354(16.54) 190 5.506(16.08) 150 Bismoclite BiOCl
6.880(12.86) 200 16.080(5.49) 200 48.200(1.83) 200 Bornemanite BaNa3{(Na,Ti)4[(Ti,Nb)2O2Si4O14](F,OH)2}·PO4
6.880(12.86) 200 5.620(15.76) 60 6.740(13.12) 50 Cosalite Pb2Bi2S5
6.880(12.86) 200 7.700(11.48) 180 8.160(10.83) 100 Farringtonite Mg3(PO4)2
6.880(12.86) 200 4.980(17.80) 180 5.320(16.65) 180 Nolanite (V+++,Fe++,Fe+++,Ti)10O14(OH)2
6.880(12.86) 200 6.760(13.09) 180 8.260(10.70) 120 Sorbyite Pb19(Sb,As)20S49
6.880(12.86) 200 6.240(14.18) 80 5.040(17.58) 70 Szomolnokite Fe++SO4·(H2O)

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