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.

**Optional Search Query - To Reset, Click Here**
Selected X-Ray λ	Change X-Ray λ	D₁ Å	D₂ Å	D₃ Å	Tolerance %	Elements

[ 1 ] [ 2 ] [ 3 ] [ 4 ] [ 5 ] [ 6 ]

**Listing of 508 Records Sorted by D₁ using 1.54056 - CuKa1 for 2θ** WHERE (d1 > 3.10562 AND d1 < 3.23238)
D₁ Å (2θ)	I₁ %)	D₂ Å (2θ)	I₂ (%)	D₃ Å (2θ)	I₃ (%)	Mineral	Formula
3.108(28.70)	100	1.902(47.78)	65	1.623(56.67)	35	Famatinite	Cu3SbS4
3.108(28.70)	100	2.927(30.52)	80	3.044(29.32)	70	Kulanite	Ba(Fe++,Mn,Mg)2Al2(PO4)3(OH)3
3.108(28.70)	100	3.027(29.48)	100	2.809(31.83)	100	Calciocopiapite	CaFe+++4(SO4)6(OH)2•19(H2O)
3.109(28.69)	100	2.248(40.08)	70	1.368(68.54)	67	Antimony	Sb
3.110(28.68)	100	15.560(5.68)	90	2.665(33.60)	70	Shkatulkalite	{(Na,Mn,Ca,[ ])4[Nb2(O,H2O)4Si4O14](OH,F)2}•2(H2O,[ ])
3.110(28.68)	100	2.850(31.36)	60	2.236(40.30)	60	Bakerite	Ca4B4(BO4)(SiO4)3(OH)3•(H2O)
3.110(28.68)	100	2.665(33.60)	90	2.850(31.36)	70	Shkatulkalite	{(Na,Mn,Ca,[ ])4[Nb2(O,H2O)4Si4O14](OH,F)2}•2(H2O,[ ])
3.110(28.68)	100	2.830(31.59)	100	2.540(35.31)	90	Minasgeraisite-(Y)	CaY2Be2Si2O10
3.110(28.68)	100	3.250(27.42)	50	3.050(29.26)	50	Walpurgite	Bi4(UO2)(AsO4)2O4•2(H2O)
3.110(28.68)	100	2.017(44.90)	100	2.786(32.10)	80	Bariosincosite	Ba(V++++O)2(PO4)2•4(H2O)
3.110(28.68)	100	2.656(33.72)	100	5.300(16.71)	100	Berborite	Be2(BO3)(OH,F)•(H2O)
3.110(28.68)	100	6.060(14.61)	90	1.843(49.41)	80	Arsenobismite	Bi2(AsO4)(OH)3
3.110(28.68)	100	4.990(17.76)	100	5.850(15.13)	60	Parabutlerite	Fe+++(SO4)(OH)•2(H2O)
3.110(28.68)	100	3.050(29.26)	50	3.250(27.42)	50	Walpurgite	Bi4(UO2)(AsO4)2O4•2(H2O)
3.110(28.68)	100	2.400(37.44)	60	1.620(56.78)	50	Argutite	GeO2
3.110(28.68)	100	2.280(39.49)	60	2.130(42.40)	50	Ingodite	Bi(S,Te)
3.110(28.68)	100	2.236(40.30)	60	2.850(31.36)	60	Bakerite	Ca4B4(BO4)(SiO4)3(OH)3•(H2O)
3.110(28.68)	100	1.919(47.33)	50	1.858(48.99)	30	Hemusite	Cu6SnMoS8
3.110(28.68)	100	1.906(47.67)	70	1.621(56.74)	20	Stannoidite	Cu8Fe3Sn2S12
3.110(28.68)	100	3.130(28.49)	100	2.930(30.48)	45	Thortveitite	(Sc,Y)2Si2O7
3.110(28.68)	100	3.700(24.03)	90	2.600(34.47)	70	Burckhardtite	Pb2(Fe+++,Mn+++)Te++++(AlSi3O10)O2(OH)2•(H2O)
3.112(28.66)	100	2.982(29.94)	40	2.127(42.46)	20	IMA2009-001	Ba5(Ca,REE,Y)22(Ti,Nb)18(SiO4)4[(PO4),(SiO4)]4(BO3)9O22[(OH),F]43(H2O)1.5
3.112(28.66)	100	2.127(42.46)	40	2.632(34.03)	20	IMA2009-001	Ba5(Ca,REE,Y)22(Ti,Nb)18(SiO4)4[(PO4),(SiO4)]4(BO3)9O22[(OH),F]43(H2O)1.5
3.112(28.66)	100	5.947(14.88)	87	3.666(24.26)	34	Dorallcharite	(Tl,K)Fe+++3(SO4)2(OH)6
3.113(28.65)	100	3.512(25.34)	90	7.010(12.62)	80	Sayrite	Pb2(UO2)5O6(OH)2•4(H2O)
3.113(28.65)	100	3.331(26.74)	45	4.050(21.93)	45	Rhomboclase	(H5O2)+Fe+++(SO4)2•2(H2O)
3.113(28.65)	100	4.050(21.93)	45	3.331(26.74)	45	Rhomboclase	(H5O2)+Fe+++(SO4)2•2(H2O)
3.114(28.64)	100	4.383(20.24)	85	5.509(16.08)	60	Strengite	Fe+++PO4•2(H2O)
3.114(28.64)	100	2.855(31.30)	65	2.189(41.21)	60	Datolite	CaBSiO4(OH)
3.114(28.64)	100	6.034(14.67)	45	2.280(39.49)	37	IMA2008-063	Pb[Zn0.25,[ ]0.75]Fe3H(AsO4)2(OH)6
3.114(28.64)	100	4.312(20.58)	48	6.394(13.84)	36	Mackelveyite-(Y)	NaBa3CaY(CO3)3(OH)6•3H2O
3.115(28.63)	100	2.809(31.83)	62	1.872(48.59)	37	Litharge	PbO
3.116(28.62)	100	2.760(32.41)	90	4.487(19.77)	90	Calcioandyrobertsite-2O	KCaCu5(AsO4)4[As(OH)2O2]•2(H2O)
3.116(28.62)	100	4.487(19.77)	90	2.760(32.41)	90	Calcioandyrobertsite-2O	KCaCu5(AsO4)4[As(OH)2O2]•2(H2O)
3.116(28.62)	100	6.210(14.25)	72	7.210(12.27)	70	Yegorovite	Na4[Si2O4(OH)2]2•7H2O
3.116(28.62)	100	2.282(39.45)	75	4.550(19.49)	55	Vihorlatite	Bi24Se17Te4
3.117(28.61)	100	1.840(49.50)	80	2.722(32.88)	50	Scrutinyite	PbO2
3.118(28.61)	100	1.637(56.14)	60	2.567(34.92)	50	Petewilliamsite	(Ni,Co,Cu)30(As2O7)15
3.118(28.61)	100	3.090(28.87)	95	9.400(9.40)	80	Chaidamuite	(Zn,Fe++)Fe+++(SO4)2(OH)•4(H2O)
3.118(28.61)	100	3.005(29.71)	60	1.637(56.14)	50	Petewilliamsite	(Ni,Co,Cu)30(As2O7)15
3.118(28.61)	100	1.844(49.38)	50	1.595(57.75)	45	Samaniite	Cu2Fe5Ni2S8
3.119(28.60)	100	1.560(59.18)	100	2.505(35.82)	80	Harrisonite	Ca(Fe++,Mg)6(PO4)2(SiO4)2
3.119(28.60)	100	3.660(24.30)	80	2.518(35.63)	75	Phenakite	Be2SiO4
3.119(28.60)	100	2.558(35.05)	100	1.560(59.18)	80	Harrisonite	Ca(Fe++,Mg)6(PO4)2(SiO4)2
3.120(28.59)	100	1.173(82.09)	90	2.198(41.03)	70	IMA2009-015	NaSrCeF6
3.120(28.59)	100	1.915(47.44)	55	1.633(56.29)	30	Nantokite	CuCl
3.120(28.59)	100	2.253(39.98)	80	2.828(31.61)	80	Fluorthalenite-(Y)	Y3Si3O10F
3.120(28.59)	100	2.280(39.49)	33	4.660(19.03)	19	Telluronevskite	Bi3TeSe2
3.120(28.59)	100	2.520(35.60)	70	2.670(33.54)	30	Tanteuxenite-(Y)	(Y,Ce,Ca)(Ta,Nb,Ti)2(O,OH)6
3.120(28.59)	100	2.310(38.96)	50	4.920(18.01)	40	Kawazulite	Bi2(Te,Se,S)3
3.120(28.59)	100	2.580(34.74)	50	3.970(22.38)	45	Kalsilite	KAlSiO4
3.120(28.59)	100	2.700(33.15)	100	2.670(33.54)	100	Harmotome	(Ba,Na,K)1-2(Si,Al)8O16•6(H2O)
3.120(28.59)	100	1.904(47.73)	90	2.730(32.78)	80	Kalistrontite	K2Sr(SO4)2
3.120(28.59)	100	2.828(31.61)	80	2.253(39.98)	80	Fluorthalenite-(Y)	Y3Si3O10F
3.120(28.59)	100	1.796(50.79)	90	1.173(82.09)	70	IMA2009-015	NaSrCeF6
3.120(28.59)	100	9.100(9.71)	90	4.600(19.28)	70	Lanthanite-(La)	(La,Ce)2(CO3)3•8(H2O)
3.120(28.59)	100	8.380(10.55)	100	2.710(33.03)	90	Actinolite	Ca2(Mg,Fe++)5Si8O22(OH)2
3.120(28.59)	100	2.961(30.16)	100	3.546(25.09)	80	Petrovicite	PbHgCu3BiSe5
3.120(28.59)	100	2.840(31.47)	100	2.840(31.47)	85	Calcybeborosilite-(Y)	(REE,Ca)2[ ](B,Be)2(SiO4)2(OH,O)2
3.120(28.59)	100	2.630(34.06)	100	3.620(24.57)	100	Garavellite	FeSbBiS4
3.120(28.59)	100	4.360(20.35)	70	3.880(22.90)	70	Kvanefjeldite	Na4(Ca,Mn)Si6O14(OH)2
3.120(28.59)	100	2.820(31.70)	100	4.010(22.15)	80	Mcbirneyite	Cu3(VO4)2
3.120(28.59)	100	1.909(47.59)	54	1.627(56.52)	40	Aktashite	Cu6Hg3As4S12
3.120(28.59)	100	2.960(30.17)	90	1.901(47.81)	50	Fergusonite-(Y)	YNbO4
3.120(28.59)	100	8.380(10.55)	100	2.710(33.03)	90	Tremolite	[ ]Ca2Mg5Si8O22(OH)2
3.120(28.59)	100	8.430(10.49)	80	3.267(27.27)	40	Edenite	NaCa2Mg5Si7AlO22(OH)2
3.120(28.59)	100	2.955(30.22)	95	1.900(47.83)	75	Fergusonite-beta-(Y)	YNbO4
3.120(28.59)	100	8.200(10.78)	75	2.798(31.96)	40	Magnesio-arfvedsonite	NaNa2(Mg4Fe++)Si8O22(OH)2
3.120(28.59)	100	22.000(4.01)	100	11.000(8.03)	80	Gyrolite	NaCa16Si23AlO60(OH)8•64(H2O)
3.120(28.59)	100	6.460(13.70)	73	5.950(14.88)	70	Georgechaoite	KNaZrSi3O9•2(H2O)
3.120(28.59)	100	5.930(14.93)	60	2.580(34.74)	50	Rhodostannite	Cu2FeSn3S8
3.120(28.59)	100	3.880(22.90)	70	4.360(20.35)	70	Kvanefjeldite	Na4(Ca,Mn)Si6O14(OH)2
3.120(28.59)	100	3.310(26.91)	85	2.150(41.99)	40	Monazite-(La)	(La,Ce,Nd)PO4
3.120(28.59)	100	2.870(31.14)	70	2.520(35.60)	30	Tanteuxenite-(Y)	(Y,Ce,Ca)(Ta,Nb,Ti)2(O,OH)6
3.122(28.57)	100	8.399(10.52)	56	2.798(31.96)	48	Leakeite	NaNa2(Mg2Fe+++2Li)Si8O22(OH)2
3.122(28.57)	100	7.120(12.42)	80	3.550(25.06)	60	Richetite	PbU++++++4O13•4(H2O)
3.123(28.56)	100	3.723(23.88)	100	2.641(33.91)	80	Magnesiochlorophoenicite	(Mg,Mn)3Zn2(AsO4)(OH,O)6
3.123(28.56)	100	2.162(41.74)	40	2.804(31.89)	30	Paulkellerite	Bi2Fe+++(PO4)O2(OH)2
3.123(28.56)	100	1.912(47.51)	51	1.633(56.29)	30	Sphalerite	(Zn,Fe)S
3.124(28.55)	100	5.930(14.93)	80	5.840(15.16)	80	Gaidonnayite	Na2ZrSi3O9•2(H2O)
3.124(28.55)	100	3.271(27.24)	61	8.421(10.50)	61	Fluoro-magnesiohastingsite	(Na,K)Ca2(Mg,Fe+++,Ti)5(Si,Al)8O22F2
3.124(28.55)	100	5.840(15.16)	80	5.930(14.93)	80	Gaidonnayite	Na2ZrSi3O9•2(H2O)
3.124(28.55)	100	8.430(10.49)	40	3.269(27.26)	35	Pargasite	NaCa2(Mg,Fe++)4Al(Si6Al2)O22(OH)2
3.124(28.55)	100	8.421(10.50)	61	3.271(27.24)	61	Fluoro-magnesiohastingsite	(Na,K)Ca2(Mg,Fe+++,Ti)5(Si,Al)8O22F2
3.124(28.55)	100	1.913(47.49)	51	1.632(56.33)	44	Cerianite-(Ce)	(Ce++++,Th)O2
3.125(28.54)	100	3.140(28.40)	90	4.018(22.10)	40	Barytocalcite	BaCa(CO3)2
3.125(28.54)	100	8.403(10.52)	60	3.271(27.24)	50	Fluoro-edenite	NaCa2Mg5Si7AlO22(F,OH)2
3.128(28.51)	100	1.918(47.36)	50	1.637(56.14)	30	Geerite	Cu8S5
3.128(28.51)	100	7.080(12.49)	100	3.485(25.54)	80	Agrinierite	(K2,Ca,Sr)U3O10•4(H2O)
3.128(28.51)	100	3.071(29.05)	70	3.596(24.74)	70	Kupcikite	Cu3.4Fe0.6Bi5S10
3.128(28.51)	100	3.596(24.74)	70	3.071(29.05)	70	Kupcikite	Cu3.4Fe0.6Bi5S10
3.129(28.50)	100	8.420(10.50)	34	2.804(31.89)	28	Fluoro-magnesio-arfvedsonite	NaNa2(Mg,Fe++)4Fe+++[Si8O22](F,OH)2
3.130(28.49)	100	3.110(28.68)	100	2.930(30.48)	45	Thortveitite	(Sc,Y)2Si2O7
3.130(28.49)	100	1.110(87.89)	60	1.915(47.44)	60	Petrukite	(Cu,Fe,Zn)2(Sn,In)S4
3.130(28.49)	100	1.822(50.02)	80	3.250(27.42)	80	Phyllotungstite	CaFe+++3H(WO4)6•10(H2O)
3.130(28.49)	100	2.830(31.59)	100	2.560(35.02)	90	Gadolinite-(Y)	Y2Fe++Be2Si2O10
3.130(28.49)	100	3.299(27.01)	100	6.589(13.43)	75	Montesommaite	(K,Na)9Al9Si23O64•10(H2O)
3.130(28.49)	100	2.850(31.36)	100	2.572(34.85)	80	Hingganite-(Yb)	(Yb,Y)2([ ])Be2Si2O8(OH)2
3.130(28.49)	100	3.850(23.08)	50	5.640(15.70)	50	Colemanite	Ca2B6O11•5(H2O)
3.130(28.49)	100	8.450(10.46)	80	8.540(10.35)	80	Cordierite	Mg2Al4Si5O18

[ 1 ] [ 2 ] [ 3 ] [ 4 ] [ 5 ] [ 6 ]

Advertisment

Your premier supplier of quality mineral specimens from Southern Africa and the world at large

X-Ray Diffraction Table

Minerals Arranged by X-Ray Powder Diffraction