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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 |
| 1.965(46.16) | 100 | 3.058(29.18) | 100 | 3.240(27.51) | 100 | Fergusonite-beta-(Ce) | (Ce,La,Nd)NbO4 |
| 1.965(46.16) | 100 | 3.240(27.51) | 100 | 3.058(29.18) | 100 | Fergusonite-beta-(Ce) | (Ce,La,Nd)NbO4 |
| 1.968(46.08) | 100 | 1.390(67.31) | 82 | 2.390(37.60) | 50 | Magnesiostaurolite | [ ]4Mg4Al16(Al,[ ])2Si8O40[O6,(OH)2] |
| 1.973(45.96) | 100 | 2.790(32.05) | 40 | 3.210(27.77) | 40 | Digenite | Cu9S5 |
| 1.973(45.96) | 100 | 3.210(27.77) | 40 | 2.790(32.05) | 40 | Digenite | Cu9S5 |
| 1.976(45.89) | 100 | 2.087(43.32) | 60 | 1.297(72.87) | 60 | Hexaferrum | (Fe,Os,Ru,Ir) |
| 1.976(45.89) | 100 | 1.297(72.87) | 60 | 2.087(43.32) | 60 | Hexaferrum | (Fe,Os,Ru,Ir) |
| 1.977(45.86) | 100 | 1.924(47.20) | 100 | 2.150(41.99) | 65 | Perryite | (Ni,Fe)8(Si,P)3 |
| 1.977(45.86) | 100 | 1.918(47.36) | 100 | 2.110(42.82) | 40 | Orcelite | Ni5-xAs2 (x=0.23) |
| 1.980(45.79) | 100 | 1.892(48.05) | 100 | 3.080(28.97) | 100 | Hypercinnabar | HgS |
| 1.982(45.74) | 100 | 2.917(30.62) | 90 | 2.846(31.41) | 60 | Larosite | (Cu,Ag)21(Pb,Bi)2S13 |
| 1.988(45.59) | 100 | 2.650(33.80) | 100 | 2.190(41.19) | 70 | Majakite | PdNiAs |
| 1.989(45.57) | 100 | 2.110(42.82) | 40 | 2.250(40.04) | 20 | Algodonite | Cu6As |
| 1.990(45.55) | 100 | 2.960(30.17) | 80 | 2.700(33.15) | 80 | Insizwaite | Pt(Bi,Sb)2 |
| 1.990(45.55) | 100 | 2.700(33.15) | 80 | 2.960(30.17) | 80 | Insizwaite | Pt(Bi,Sb)2 |
| 1.990(45.55) | 100 | 2.435(36.88) | 100 | 1.420(65.70) | 60 | Surinamite | (Mg,Fe++)3Al4BeSi3O16 |
| 1.991(45.52) | 100 | 1.196(80.19) | 100 | 1.817(50.17) | 90 | Fersilicite | FeSi |
| 2.000(45.30) | 100 | 3.380(26.35) | 100 | 3.400(26.19) | 100 | Ardaite | Pb19Sb13S35Cl7 |
| 2.000(45.30) | 2.831(31.58) | 1.631(56.36) | Hapkeite | Fe2Si | |||
| 2.000(45.30) | 100 | 1.920(47.30) | 80 | 1.940(46.79) | 80 | Xifengite | Fe5Si3 |
| 2.000(45.30) | 100 | 1.940(46.79) | 80 | 1.920(47.30) | 80 | Xifengite | Fe5Si3 |
| 2.000(45.30) | 100 | 3.400(26.19) | 100 | 3.380(26.35) | 100 | Ardaite | Pb19Sb13S35Cl7 |
| 2.001(45.28) | 100 | 2.044(44.28) | 90 | 2.089(43.27) | 80 | Koutekite | Cu5As2 |
| 2.003(45.23) | 100 | 2.970(30.06) | 100 | 1.778(51.35) | 80 | Michenerite | (Pd,Pt)BiTe |
| 2.005(45.19) | 100 | 1.906(47.67) | 60 | 1.816(50.20) | 20 | Melliniite | (Ni,Fe)4P |
| 2.005(45.19) | 100 | 1.160(83.22) | 30 | 1.410(66.23) | 10 | Suessite | (Fe,Ni)3Si |
| 2.006(45.16) | 100 | 4.232(20.97) | 100 | 2.362(38.07) | 100 | Khaidarkanite | Na0.34Cu4Al3(OH)14F3•2(H2O) |
| 2.006(45.16) | 100 | 2.362(38.07) | 100 | 4.232(20.97) | 100 | Khaidarkanite | Na0.34Cu4Al3(OH)14F3•2(H2O) |
| 2.010(45.07) | 100 | 1.713(53.44) | 100 | 2.690(33.28) | 90 | Maucherite | Ni11As8 |
| 2.010(45.07) | 100 | 2.060(43.92) | 70 | 2.380(37.77) | 65 | Cohenite | (Fe,Ni,Co)3C |
| 2.010(45.07) | 100 | 2.320(38.78) | 90 | 1.424(65.49) | 50 | Griceite | LiF |
| 2.010(45.07) | 100 | 2.791(32.04) | 50 | 2.508(35.77) | 40 | Sheldrickite | NaCa3(CO3)2F3•(H2O) |
| 2.010(45.07) | 100 | 2.980(29.96) | 75 | 3.330(26.75) | 70 | Aurostibite | AuSb2 |
| 2.017(44.90) | 100 | 3.110(28.68) | 100 | 2.786(32.10) | 80 | Bariosincosite | Ba(V++++O)2(PO4)2•4(H2O) |
| 2.020(44.83) | 100 | 1.800(50.67) | 100 | 2.700(33.15) | 100 | Wilkmanite | Ni3Se4 |
| 2.020(44.83) | 100 | 3.110(28.68) | 70 | 2.810(31.82) | 70 | Korzhinskite | CaB2O4•(H2O) |
| 2.020(44.83) | 100 | 2.350(38.27) | 100 | 2.090(43.25) | 100 | Calcioancylite-(Ce) | CaCe(CO3)2(OH)•(H2O) |
| 2.020(44.83) | 100 | 1.160(83.22) | 100 | 1.430(65.18) | 80 | Chromferide | Fe3Cr1-x (x=0,6) |
| 2.020(44.83) | 100 | 2.090(43.25) | 100 | 2.350(38.27) | 100 | Calcioancylite-(Ce) | CaCe(CO3)2(OH)•(H2O) |
| 2.020(44.83) | 100 | 3.040(29.36) | 100 | 2.850(31.36) | 100 | Marianoite | Na2Ca4(Nb,Zr)2(Si2O7)2(O,F)4 |
| 2.020(44.83) | 2.350(38.27) | 2.830(31.59) | Tertschite | Ca4B10O19•20(H2O) | |||
| 2.020(44.83) | 100 | 2.810(31.82) | 70 | 3.110(28.68) | 70 | Korzhinskite | CaB2O4•(H2O) |
| 2.020(44.83) | 100 | 2.850(31.36) | 100 | 3.040(29.36) | 100 | Marianoite | Na2Ca4(Nb,Zr)2(Si2O7)2(O,F)4 |
| 2.020(44.83) | 100 | 3.320(26.83) | 90 | 1.726(53.01) | 80 | Berzelianite | Cu2Se |
| 2.023(44.76) | 100 | 2.863(31.22) | 100 | 3.530(25.21) | 50 | Mummeite | Cu0.58Ag3.11Pb1.10Bi6.65S13 |
| 2.027(44.67) | 100 | 1.170(82.35) | 30 | 1.433(65.03) | 20 | Iron | Fe |
| 2.030(44.60) | 100 | 1.967(46.11) | 60 | 1.435(64.93) | 30 | Kamacite | alpha-(Fe,Ni) |
| 2.030(44.60) | 100 | 2.850(31.36) | 100 | 3.540(25.14) | 80 | Thorbastnasite | Th(Ca,Ce)(CO3)2F2•3(H2O) |
| 2.030(44.60) | 100 | 2.860(31.25) | 70 | 3.520(25.28) | 60 | Vulcanite | CuTe |
| 2.034(44.51) | 100 | 1.762(51.85) | 42 | 1.246(76.37) | 21 | Nickel | Ni |
| 2.038(44.41) | 100 | 1.861(48.90) | 50 | 1.218(78.46) | 24 | Brownleeite | MnSi |
| 2.039(44.39) | 100 | 1.177(81.75) | 30 | 0.912(115.26) | 20 | Chromium | Cr |
| 2.040(44.37) | 100 | 5.100(17.37) | 100 | 10.100(8.75) | 60 | Uranocircite | Ba(UO2)2(PO4)2•12(H2O) |
| 2.040(44.37) | 100 | 1.170(82.35) | 90 | 0.770( <90 ) | 80 | Ferchromide | Cr3Fe1-x(x=0,6) |
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