X-Ray Diffraction of Minerals

Minerals Arranged by X-Ray Powder 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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Selected X-Ray λ	Change X-Ray λ	D₁ Å	D₂ Å	D₃ Å	Tolerance %	Elements

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**Listing of 25 Records Sorted by D₁ using 1.54056 - CuKa1 for 2θ** WHERE (d1 > 12.446 AND d1 < 12.954)
D₁ Å (2θ)	I₁ %)	D₂ Å (2θ)	I₂ (%)	D₃ Å (2θ)	I₃ (%)	Mineral	Formula
12.467(7.08)	100	4.156(21.36)	52	2.674(33.48)	13	Coalingite	Mg10Fe+++2(CO3)(OH)24•2(H2O)
12.493(7.07)	100	3.236(27.54)	89	3.123(28.56)	54	Aravaipaite	Pb3AlF9•(H2O)
12.500(7.07)	100	3.140(28.40)	25	2.700(33.15)	14	Ganophyllite	(K,Na)2(Mn,Al,Mg)8(Si,Al)12O29(OH)7•8-9(H2O)
12.500(7.07)	100	10.300(8.58)	45	5.200(17.04)	42	Tokkoite	K2Ca4[Si7O18(OH)](F,OH)
12.570(7.03)	100	3.160(28.22)	40	3.427(25.98)	15	Zakharovite	Na4Mn++5Si10O24(OH)6•6(H2O)
12.600(7.01)	100	6.180(14.32)	70	5.290(16.75)	70	Hydrobasaluminite	Al4(SO4)(OH)10•12-36(H2O)
12.600(7.01)	100	8.700(10.16)	100	9.650(9.16)	80	Voglite	Ca2Cu(UO2)(CO3)4•6(H2O)
12.600(7.01)	100	5.290(16.75)	70	6.180(14.32)	70	Hydrobasaluminite	Al4(SO4)(OH)10•12-36(H2O)
12.600(7.01)	100	2.690(33.28)	90	2.460(36.49)	75	Tamaite	(Ca,K,Ba,Na)3-4Mn24(Si,Al)40(O,OH)112•21(H2O)
12.600(7.01)	100	2.460(36.49)	90	2.600(34.47)	75	Tamaite	(Ca,K,Ba,Na)3-4Mn24(Si,Al)40(O,OH)112•21(H2O)
12.630(6.99)	100	5.410(16.37)	35	7.820(11.31)	35	Peisleyite	Na3Al16(SO4)2(PO4)10(OH)17•20(H2O)
12.630(6.99)	100	7.820(11.31)	35	5.410(16.37)	35	Peisleyite	Na3Al16(SO4)2(PO4)10(OH)17•20(H2O)
12.690(6.96)	100	4.200(21.14)	100	2.874(31.09)	70	Stratlingite	Ca2Al[(OH)6AlSiO2-3(OH)4-3]•2,5(H2O)
12.700(6.95)	100	3.050(29.26)	80	2.890(30.92)	70	Tacharanite	Ca12Al2Si18O33(OH)36
12.770(6.92)	100	2.768(32.32)	90	8.350(10.59)	70	Schoonerite	Fe++2ZnMnFe+++(PO4)3(OH)2•9(H2O)
12.771(6.92)	100	3.631(24.50)	50	3.140(28.40)	50	Gerdtremmelite	ZnAl2(AsO4)(OH)5
12.771(6.92)	100	3.140(28.40)	50	3.631(24.50)	50	Gerdtremmelite	ZnAl2(AsO4)(OH)5
12.800(6.90)	100	4.764(18.61)	34	2.630(34.06)	29	Kankite	Fe+++AsO4•3.5(H2O)
12.810(6.89)	100	6.450(13.72)	70	2.571(34.87)	60	Adamsite-(Y)	NaY(CO3)2•6(H2O)
12.810(6.89)	100	2.571(34.87)	70	4.290(20.69)	60	Adamsite-(Y)	NaY(CO3)2•6(H2O)
12.820(6.89)	100	7.785(11.36)	80	6.319(14.00)	40	Walkerite	Ca16(Mg,Li,[ ])2[B13O17(OH)12]4Cl6•28(H2O)
12.900(6.85)	100	4.340(20.45)	18	4.510(19.67)	7	Loughlinite	Na2Mg3Si6O16•8(H2O)
12.900(6.85)	100	3.168(28.14)	70	7.663(11.54)	50	Apachite	Cu9Si10O29•11(H2O)
12.900(6.85)	100	3.000(29.76)	50	4.430(20.03)	30	Walentaite	(Ca,Mn++,Fe++)Fe+++3(AsO4)(PO4)3(PO3OH)
12.950(6.82)	100	6.501(13.61)	23	4.339(20.45)	15	Gordaite	NaZn(SO4)(OH)6Cl•6(H2O)

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X-Ray Diffraction Table

Minerals Arranged by X-Ray Powder Diffraction