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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 |
| 1.740(52.55) | 100 | 2.560(35.02) | 80 | 3.330(26.75) | 80 | Tapiolite | (Fe,Mn)(Ta,Nb)2O6 |
| 1.740(52.55) | 100 | 3.330(26.75) | 80 | 2.560(35.02) | 80 | Tapiolite-(Fe) | (Fe++,Mn++)(Ta,Nb)2O6 |
| 1.740(52.55) | 100 | 3.310(26.91) | 100 | 2.870(31.14) | 100 | Hollingworthite | (Rh,Pt,Pd)AsS |
| 1.740(52.55) | 100 | 3.320(26.83) | 100 | 2.870(31.14) | 100 | Irarsite | (Ir,Ru,Rh,Pt)AsS |
| 1.740(52.55) | 100 | 5.020(17.65) | 70 | 3.700(24.03) | 70 | Clinohumite | (Mg,Fe++)9(SiO4)4(F,OH)2 |
| 1.740(52.55) | 100 | 3.330(26.75) | 80 | 2.560(35.02) | 80 | Tapiolite | (Fe,Mn)(Ta,Nb)2O6 |
| 1.740(52.55) | 100 | 3.700(24.03) | 70 | 5.020(17.65) | 70 | Clinohumite | (Mg,Fe++)9(SiO4)4(F,OH)2 |
| 1.740(52.55) | 100 | 2.870(31.14) | 100 | 3.320(26.83) | 100 | Irarsite | (Ir,Ru,Rh,Pt)AsS |
| 1.740(52.55) | 100 | 2.870(31.14) | 100 | 3.310(26.91) | 100 | Hollingworthite | (Rh,Pt,Pd)AsS |
| 1.740(52.55) | 100 | 2.560(35.02) | 80 | 3.330(26.75) | 80 | Tapiolite-(Fe) | (Fe++,Mn++)(Ta,Nb)2O6 |
| 1.743(52.45) | 100 | 2.869(31.15) | 100 | 2.651(33.78) | 70 | Sonolite | Mn9(SiO4)4(OH,F)2 |
| 1.744(52.42) | 80 | 2.320(38.78) | 80 | 1.791(50.95) | 80 | Felbertalite | Cu2Pb6Bi8S19 |
| 1.744(52.42) | 90 | 2.610(34.33) | 80 | 3.300(27.00) | 70 | Bezsmertnovite | Au4Cu(Te,Pb) |
| 1.746(52.36) | 100 | 2.896(30.85) | 90 | 3.345(26.63) | 80 | Platarsite | (Pt,Rh,Ru)AsS |
| 1.750(52.23) | 100 | 3.330(26.75) | 80 | 2.600(34.47) | 80 | Varlamoffite | (Sn,Fe)(O,OH)2 |
| 1.750(52.23) | 100 | 1.900(47.83) | 70 | 2.980(29.96) | 60 | Malanite | Cu(Pt,Ir)2S4 |
| 1.750(52.23) | 100 | 2.600(34.47) | 80 | 3.330(26.75) | 80 | Varlamoffite | (Sn,Fe)(O,OH)2 |
| 1.750(52.23) | 100 | 2.850(31.36) | 100 | 2.430(36.96) | 70 | Gehlenite | Ca2Al(AlSi)O7 |
| 1.755(52.07) | 100 | 2.480(36.19) | 100 | 3.000(29.76) | 80 | Trustedtite | Ni3Se4 |
| 1.755(52.07) | 100 | 1.852(49.15) | 90 | 1.549(59.64) | 80 | Polkanovite | Rh12As7 |
| 1.757(52.00) | 100 | 1.019(98.21) | 100 | 1.910(47.57) | 80 | Kalininite | ZnCr2S4 |
| 1.758(51.97) | 100 | 3.000(29.76) | 100 | 1.009(99.53) | 90 | Cuprorhodsite | CuRh2S4 |
| 1.760(51.91) | 100 | 3.000(29.76) | 100 | 2.489(36.06) | 90 | Cuproiridsite | CuIr2S4 |
| 1.763(51.81) | 100 | 2.980(29.96) | 100 | 2.459(36.51) | 90 | Konderite | PbCu3(Rh,Pt,Ir)8S16 |
| 1.763(51.81) | 100 | 3.008(29.67) | 100 | 1.918(47.36) | 80 | Cobaltpentlandite | Co9S8 |
| 1.765(51.75) | 100 | 5.800(15.26) | 80 | 3.000(29.76) | 80 | Xingzhongite | (Pb,Cu,Fe)(Ir,Pt,Rh)2S4 |
| 1.765(51.75) | 100 | 3.000(29.76) | 80 | 5.800(15.26) | 80 | Xingzhongite | (Pb,Cu,Fe)(Ir,Pt,Rh)2S4 |
| 1.765(51.75) | 100 | 2.850(31.36) | 80 | 3.240(27.51) | 60 | Roshchinite | Ag19Pb10Sb51S96 or Pb(Ag,Cu)2(Sb,As)5S10 |
| 1.766(51.72) | 100 | 2.667(33.57) | 100 | 3.099(28.78) | 100 | Yftisite-(Y) | (Y,Dy,Er)4(Ti,Sn)O(SiO4)2(F,OH)6 |
| 1.766(51.72) | 100 | 3.099(28.78) | 100 | 2.667(33.57) | 100 | Yftisite-(Y) | (Y,Dy,Er)4(Ti,Sn)O(SiO4)2(F,OH)6 |
| 1.768(51.66) | 100 | 3.010(29.65) | 100 | 2.500(35.89) | 80 | Florensovite | Cu(Cr1.5Sb0.5)S4 |
| 1.769(51.63) | 100 | 2.501(35.88) | 90 | 2.886(30.96) | 70 | Tyrrellite | (Cu,Co,Ni)3Se4 |
| 1.770(51.59) | 100 | 3.020(29.55) | 80 | 2.510(35.74) | 60 | Daubreelite | Fe++Cr2S4 |
| 1.774(51.47) | 100 | 2.240(40.23) | 90 | 3.020(29.55) | 90 | Miassite | Rh17S15 |
| 1.774(51.47) | 100 | 3.020(29.55) | 90 | 2.240(40.23) | 90 | Miassite | Rh17S15 |
| 1.775(51.44) | 100 | 3.030(29.45) | 80 | 1.931(47.02) | 50 | Pentlandite | (Fe,Ni)9S8 |
| 1.776(51.41) | 100 | 8.700(10.16) | 100 | 3.070(29.06) | 90 | Vozhminite | (Ni,Co)4(As,Sb)S2 |
| 1.779(51.31) | 100 | 2.890(30.92) | 90 | 2.950(30.27) | 90 | Weberite | Na2MgAlF7 |
| 1.779(51.31) | 100 | 2.950(30.27) | 90 | 2.890(30.92) | 90 | Weberite | Na2MgAlF7 |
| 1.782(51.22) | 100 | 3.102(28.76) | 80 | 2.332(38.58) | 80 | Welinite-VIII | (Mn++,Mg)3(W++++++,Mn+++)1-x(SiO4)(O,OH)3 (x=1/3) |
| 1.782(51.22) | 100 | 2.332(38.58) | 80 | 3.102(28.76) | 80 | Welinite-VIII | (Mn++,Mg)3(W++++++,Mn+++)1-x(SiO4)(O,OH)3 (x=1/3) |
| 1.782(51.22) | 100 | 2.332(38.58) | 80 | 3.102(28.76) | 80 | Welinite-III | Mn++6(W++++++,Mg)2Si2(O,OH)14 |
| 1.782(51.22) | 100 | 3.102(28.76) | 80 | 2.332(38.58) | 80 | Welinite-III | Mn++6(W++++++,Mg)2Si2(O,OH)14 |
| 1.782(51.22) | 100 | 3.393(26.24) | 89 | 2.513(35.70) | 79 | Manganhumite | (Mn,Mg)7(SiO4)3(OH)2 |
| 1.791(50.95) | 80 | 1.744(52.42) | 80 | 2.320(38.78) | 80 | Felbertalite | Cu2Pb6Bi8S19 |
| 1.791(50.95) | 80 | 2.320(38.78) | 80 | 1.744(52.42) | 80 | Felbertalite | Cu2Pb6Bi8S19 |
| 1.791(50.95) | 80 | 1.744(52.42) | 80 | 2.031(44.58) | 80 | Felbertalite | Cu2Pb6Bi8S19 |
| 1.796(50.79) | 100 | 2.552(35.14) | 80 | 2.873(31.10) | 80 | Ribbeite | (Mn++,Mg)5(SiO4)2(OH)2 |
| 1.796(50.79) | 100 | 2.873(31.10) | 80 | 2.552(35.14) | 80 | Ribbeite | (Mn++,Mg)5(SiO4)2(OH)2 |
| 1.797(50.76) | 100 | 1.325(71.09) | 80 | 2.222(40.57) | 80 | Zoubekite | AgPb4Sb4S10 |
| 1.797(50.76) | 100 | 2.222(40.57) | 80 | 1.325(71.09) | 80 | Zoubekite | AgPb4Sb4S10 |
| 1.798(50.73) | 100 | 1.996(45.40) | 80 | 3.443(25.86) | 20 | Ertixiite | Na2Si4O9 |
| 1.799(50.70) | 100 | 2.860(31.25) | 80 | 2.598(34.49) | 60 | Alleghanyite | Mn5(SiO4)2(OH)2 |
| 1.800(50.67) | 100 | 2.700(33.15) | 100 | 2.020(44.83) | 100 | Wilkmanite | Ni3Se4 |
| 1.800(50.67) | 100 | 1.590(57.95) | 100 | 2.130(42.40) | 100 | Lindsleyite | (Ba,Sr)(Ti,Cr,Fe,Mg)21O38 |
| 1.800(50.67) | 100 | 1.775(51.44) | 90 | 1.745(52.39) | 80 | Vincentite | (Pd,Pt)3(As,Sb,Te) |
| 1.800(50.67) | 100 | 2.020(44.83) | 100 | 2.700(33.15) | 100 | Wilkmanite | Ni3Se4 |
| 1.800(50.67) | 100 | 1.745(52.39) | 90 | 1.758(51.97) | 80 | Vincentite | (Pd,Pt)3(As,Sb,Te) |
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