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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.
|
Selected X-Ray λ |
Change X-Ray λ |
D1 Å |
D2 Å |
D3 Å |
Tolerance % |
Elements |
|---|
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| D1 Å (2θ) |
I1 %) |
D2 Å (2θ) |
I2 (%) |
D3 Å (2θ) |
I3 (%) |
Mineral | Formula |
| 7.980(11.08) | 100 | 5.320(16.65) | 63 | 3.190(27.95) | 45 | Cattiite | Mg3(PO4)2•22(H2O) |
| 7.980(11.08) | 100 | 11.160(7.92) | 70 | 4.630(19.15) | 50 | Wermlandite | (Ca,Mg)Mg7(Al,Fe+++)2(SO4)2(OH)18•12(H2O) |
| 7.990(11.06) | 100 | 3.270(27.25) | 80 | 2.831(31.58) | 60 | Natropharmacosiderite | (Na,K)2Fe+++4(AsO4)3(OH)5•7(H2O) |
| 7.990(11.06) | 100 | 4.230(20.98) | 70 | 5.800(15.26) | 55 | Mellite | Al2[C6(COO)6]•16(H2O) |
| 8.000(11.05) | 100 | 2.290(39.31) | 100 | 13.700(6.45) | 100 | Connellite | Cu19Cl4(SO4)(OH)32•3(H2O) |
| 8.010(11.04) | 100 | 3.562(24.98) | 49 | 2.807(31.85) | 48 | Lemoynite | (Na,K)2CaZr2Si10O26•5-6(H2O) |
| 8.010(11.04) | 100 | 4.060(21.87) | 50 | 3.480(25.58) | 40 | Searlesite | NaBSi2O5(OH)2 |
| 8.010(11.04) | 100 | 5.890(15.03) | 100 | 3.140(28.40) | 90 | Dewindtite | Pb3[H(UO2)3O2(PO4)2]2•12(H2O) |
| 8.010(11.04) | 100 | 2.912(30.68) | 80 | 4.010(22.15) | 70 | Haynesite | (UO2)3(SeO3)2(OH)2•5(H2O) |
| 8.040(11.00) | 100 | 2.007(45.14) | 60 | 4.021(22.09) | 48 | Woodallite | Mg6Cr2(OH)16Cl2•4(H2O) |
| 8.040(11.00) | 100 | 2.439(36.82) | 95 | 3.843(23.13) | 75 | Korshunovskite | Mg2Cl(OH)3•3.5-4(H2O) |
| 8.040(11.00) | 100 | 3.440(25.88) | 100 | 24.100(3.66) | 100 | Bornemanite | BaNa3{(Na,Ti)4[(Ti,Nb)2O2Si4O14](F,OH)2}•PO4 |
| 8.050(10.98) | 100 | 3.100(28.77) | 80 | 3.090(28.87) | 80 | Phurcalite | Ca2(UO2)3O2(PO4)2•7(H2O) |
| 8.050(10.98) | 100 | 3.090(28.87) | 80 | 3.100(28.77) | 80 | Phurcalite | Ca2(UO2)3O2(PO4)2•7(H2O) |
| 8.060(10.97) | 100 | 4.020(22.09) | 80 | 3.488(25.52) | 70 | Urancalcarite | Ca(UO2)3(CO3)(OH)6•3(H2O) |
| 8.062(10.97) | 100 | 3.200(27.86) | 44 | 2.394(37.54) | 41 | Effenbergerite | BaCuSi4O10 |
| 8.070(10.95) | 100 | 4.210(21.08) | 100 | 2.680(33.41) | 90 | Zunyite | Al13Si5O20(OH,F)18Cl |
| 8.090(10.93) | 100 | 6.230(14.20) | 60 | 3.660(24.30) | 50 | Dresserite | BaAl2(CO3)2(OH)4•(H2O) |
| 8.090(10.93) | 100 | 3.420(26.03) | 90 | 3.180(28.04) | 80 | Joliotite | (UO2)(CO3)•n(H2O), (n=2?) |
| 8.100(10.91) | 100 | 3.149(28.32) | 100 | 2.696(33.20) | 80 | Wilkinsonite | Na2Fe++4Fe+++2Si6O20 |
| 8.100(10.91) | 100 | 4.040(21.98) | 40 | 3.560(24.99) | 20 | Brianroulstonite | Ca3[B5O6(OH)6](OH)Cl2•8(H2O) |
| 8.107(10.90) | 100 | 3.000(29.76) | 90 | 4.427(20.04) | 70 | Holmquistite | [ ](Li2Mg3Al2)Si8O22(OH)2 |
| 8.109(10.90) | 100 | 4.047(21.94) | 40 | 2.363(38.05) | 27 | Iowaite | Mg4Fe+++(OH)8OCl•2-4(H2O) |
| 8.110(10.90) | 100 | 3.140(28.40) | 100 | 2.705(33.09) | 80 | Aenigmatite | (Na,Ca)4(Fe++,Ti,Mg)12Si12O40 |
| 8.110(10.90) | 100 | 3.000(29.76) | 48 | 4.420(20.07) | 26 | Ferroholmquistite | [ ](Li2Fe++3Al2)Si8O22(OH)2 |
| 8.120(10.89) | 100 | 2.863(31.22) | 48 | 3.543(25.11) | 39 | Bussyite-(Ce) | (Ce,REE)3(Na,H2O)6MnSi9Be5(O,OH)30F4 |
| 8.135(10.87) | 100 | 3.564(24.96) | 40 | 5.975(14.81) | 40 | Natrolemoynite | Na4Zr2Si10O26•9(H2O) |
| 8.135(10.87) | 100 | 5.975(14.81) | 40 | 3.564(24.96) | 40 | Natrolemoynite | Na4Zr2Si10O26•9(H2O) |
| 8.146(10.85) | 100 | 2.686(33.33) | 90 | 3.008(29.67) | 80 | IMA2008-070 | NaLi2(Fe2Al2Li)(Si6Al2)O22F2 |
| 8.150(10.85) | 100 | 2.778(32.20) | 90 | 4.070(21.82) | 80 | Zemannite | Mg0.5[Zn++Fe+++(TeO3)3]•4.5(H2O) |
| 8.150(10.85) | 100 | 3.000(29.76) | 80 | 4.040(21.98) | 70 | Lepersonnite-(Gd) | CaGd2(UO3)24(CO3)8(SiO4)4O4•60(H2O) |
| 8.160(10.83) | 100 | 4.820(18.39) | 90 | 6.060(14.61) | 70 | Cuprosklodowskite | Cu[(UO2)(SiO2OH)]2•6(H2O) |
| 8.190(10.79) | 100 | 3.005(29.71) | 100 | 4.100(21.66) | 80 | Curienite | Pb(UO2)2V2O8•5(H2O) |
| 8.190(10.79) | 100 | 2.409(37.30) | 30 | 3.720(23.90) | 20 | Sabieite | (NH4)Fe+++(SO4)2 |
| 8.199(10.78) | 100 | 5.502(16.10) | 100 | 2.883(30.99) | 80 | Bobkingite | Cu5Cl2(OH)8(H2O)2 |
| 8.200(10.78) | 100 | 3.190(27.95) | 45 | 9.200(9.61) | 25 | Gowerite | CaB6O10•5(H2O) |
| 8.200(10.78) | 100 | 7.400(11.95) | 70 | 2.730(32.78) | 60 | Hummerite | KMgV+++++5O14•8(H2O) |
| 8.210(10.77) | 100 | 4.200(21.14) | 90 | 5.690(15.56) | 20 | Mpororoite | Al(WO3)(OH)3•2(H2O) |
| 8.210(10.77) | 100 | 3.080(28.97) | 90 | 4.200(21.14) | 20 | Mpororoite | Al(WO3)(OH)3•2(H2O) |
| 8.224(10.75) | 100 | 2.717(32.94) | 69 | 3.042(29.34) | 54 | Ferri-clinoferroholmquistite | [ ]Li2(Fe+++2Fe++3)Si8O22(OH)2 |
| 8.230(10.74) | 100 | 3.040(29.36) | 70 | 3.220(27.68) | 20 | Ferrogedrite | [ ]Fe++5Al2Si6Al2O22(OH)2 |
| 8.230(10.74) | 100 | 3.090(28.87) | 100 | 3.220(27.68) | 80 | Marthozite | Cu[(UO2)3(SeO3)2O2]•8(H2O) |
| 8.240(10.73) | 100 | 4.370(20.30) | 80 | 7.790(11.35) | 80 | Rabbittite | Ca3Mg3(UO2)2(CO3)6(OH)4•18(H2O) |
| 8.240(10.73) | 100 | 7.790(11.35) | 80 | 4.370(20.30) | 80 | Rabbittite | Ca3Mg3(UO2)2(CO3)6(OH)4•18(H2O) |
| 8.240(10.73) | 100 | 7.830(11.29) | 94 | 4.662(19.02) | 61 | Mapimite | Zn2Fe+++3(AsO4)3(OH)4•10(H2O) |
| 8.241(10.73) | 100 | 2.714(32.98) | 72 | 3.050(29.26) | 60 | Sodic-ferri-ferropedrizite | NaLi2(Fe+++2Fe++3)Si8O22(OH)2 |
| 8.256(10.71) | 100 | 2.709(33.04) | 81 | 2.501(35.88) | 68 | Ferri-ottoliniite | [ ](Na,Li)(Mg3Fe+++2)Si8O22(OH)2 |
| 8.260(10.70) | 100 | 2.760(32.41) | 75 | 5.450(16.25) | 65 | Paracoquimbite | Fe+++2(SO4)3•9(H2O) |
| 8.260(10.70) | 100 | 2.759(32.42) | 75 | 5.450(16.25) | 65 | Coquimbite | Fe+++2(SO4)3•9(H2O) |
| 8.270(10.69) | 100 | 3.240(27.51) | 100 | 2.430(36.96) | 100 | Calclacite | Ca[Cl2/CH3COO]•10(H2O) |
| 8.283(10.67) | 100 | 8.985(9.84) | 35 | 4.878(18.17) | 29 | IMA2008-047 | Cd3Zn2(AsO3OH)2(AsO4)24?H2O |
| 8.283(10.67) | 100 | 4.878(18.17) | 35 | 6.169(14.35) | 29 | IMA2008-047 | Cd3Zn2(AsO3OH)2(AsO4)24?H2O |
| 8.290(10.66) | 100 | 3.339(26.68) | 90 | 2.884(30.98) | 80 | Penkvilksite | Na4(Ti++++,Zr)2[Si8O22]•4(H2O) |
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