European Journal of Mineralogy current issue

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Mercury-arsenic sulfosalts from Apuan Alps (Tuscany, Italy). I. Routhierite, (Cu...

[...] .19Fe0.02)=0.98(Hg1.89Zn0.15Cd0.01)=2.05Tl0.96(As1.35Sb0.60)=1.95(S5.99Cl0.01)=6.00. The crystal structure of routhierite from Monte Arsiccio mine was refined to R1 = 0.030 in the I-42m space group, [...]

Nafertisite, Na3Fe2+ 10Ti2(Si6O17)2O2(OH)6F(H2O)2, from Mt. Kukisvumchorr, Khibi...

[...] The crystal structure of nafertisite, Na3Fe2+10Ti2(Si6O17)2O2(OH)6F(H2O)2, from Mt. Kukisvumchorr, Khibiny [...]

Synthesis and crystal structure of tischendorfite, Pd8Hg3Se9

[...] tischendorfite, Pd8Hg3Se9, was prepared using the silica glass tube technique and its crystal structure was solved and refined from powder X-ray diffraction data. The structure is orthorhombic, [...]

Nicksobolevite, Cu7(SeO3)2O2Cl6, a new complex copper oxoselenite chloride from ...

[...] symmetrically independent Cu2+ positions with coordination numbers varying from 5 to 6. The crystal structure is based upon [O4Cu13] tetramers consisting of four corner-sharing OCu4 tetrahedra. The [...]

Raman spectroscopy characterisation of synthetic platinum-group minerals (PGM) i...

[...] by standard X-ray diffraction methods. In this contribution we have applied the Raman spectroscopy to synthetic PGM in the ternary systems Pd–Sn–Te and Pd–Pb–Te. Some of the analyzed PGM [...]

Fused-silica capillary capsules (FSCCs) as reference synthetic aqueous fluid inc...

[...] from the operator. The method has been tested by comparison of the results obtained from Raman spectroscopy and with phase transitions observed in microthermometry from natural and synthetic fluid [...]

Experimental study of uranyl(VI) chloride complex formation in acidic LiCl aqueo...

[...] ) in chloride aqueous solutions is studied here along the vapor saturation curve using Raman spectroscopy. Chemical composition of solutions is the following: UO2Cl2 (0.01 M), HCl (0.1 M), [...]

Raman spectroscopy as a tool to study the solubility of CO2 in magnesium sulphat...

[...] studied in detail for only few salts such as NaCl or Na2SO4. In this study we introduce Raman spectroscopy as a useful tool to measure gas solubility in brines. We have obtained the solubility of [...]

Favreauite, a new selenite mineral from the El Dragon mine, Bolivia

[...] . It is pleochroic in shades of green, O < E. Electron microprobe analyses gave the empirical formula Pb0.95Ca0.17Bi0.90Cu5.81Se4.10O16(OH) · 1H2O, based on 18 O pfu. The Raman spectrum shows [...]

Laachite, (Ca,Mn)2Zr2Nb2TiFeO14, a new zirconolite-related mineral from the Eife...

[...] and twins in cavities within sanidinite. The density calculated from the empirical formula is 5.417 g/cm3. The mean refractive index calculated from the Gladstone-Dale [...]

Chiappinoite-(Y), Y2Mn(Si3O7)4, a new layer silicate found in peralkaline syenit...

[...] no dispersion and is nonpleochroic. The optical orientation is X = c, Y = b, Z = a. The empirical formula on 28 O apfu is (Y1.17Ce0.18Dy0.10Na0.10Nd0.09Er0.08La0.07Gd0.07Yb0.06Sm0.03Pr0.02) 1.97 ( [...]

Peterandresenite, Mn4Nb6O19{middle dot}14H2O, a new mineral containing the Lindq...

[...] orange) << Y(medium orange). The optical orientation is: X c,y a*,Z = b. The empirical formula based on electron microprobe analyses is (Mn3.92Ca0.05Na0.03)4.00(Nb5.71Mn0.13Fe0. [...]

Manganese incorporation into the magnetosome magnetite: magnetic signature of do...

[...] of the Verwey transition, as well as by changes in the crystalline structure and chemical composition of magnetosome magnetite. [...]

Influence of thermal equilibrium and microstructure of dense zircon-doped dolomi...

[...] in relation to their thermal equilibrium and microstructure. The nature, chemical composition and zonation of the phases and the microstructure of the products were characterized [...]

The Orvieto-Bagnoregio Ignimbrite: pyroxene crystal-chemistry and bulk phase com...

[...] both on the bulk rock and on the juvenile products (mainly pumices and scoriae). The chemical composition and lattice parameters of the Orvieto and Bagnoregio clinopyroxenes indicate diopsides [...]

Whitecapsite, a new hydrous iron and trivalent antimony arsenate mineral from th...

[...] ), Dcalc = 2.297 g cm–3. Whitecapsite is optically uniaxial (+), = 1.590(2) and = 1.603(3). Chemical composition (wt%, electron probe) is: MnO 0.09, FeO 5.32, Fe2O3 16.82, Sb2O3 13.30, As2O5 30.78, [...]

Crystalline organization of the fibrous prismatic calcitic layer of the Mediterr...

[...] by means of optical and scanning and transmission electron microscopy (SEM and TEM), X-ray diffraction (XRD) and atomic-force microscopy (AFM). SEM data from other species have also been gathered. [...]

The arrojadite enigma III. The incorporation of volatiles: a polarised FTIR spec...

[...] of volatiles incorporation in arrojadites, two samples previously characterized by X-ray diffraction and electron-microprobe (EMP) and LA-ICPMS analysis were investigated by single- [...]

Impact of swelling clays on the spalling decay of building limestones: insights ...

[...] electron microscopy (TEM) coupled to energy-dispersive X-ray spectrometer (EDX) and of X-ray diffraction (XRD) full-profile modeling of 00 reflections patterns is used for quantitative phase [...]

Lattice macro and microstrain fluctuations in the calcified byssus of Anomia sim...

[...] simplex. We compare two approaches to studying the biomolecule-induced lattice deformation: X-ray diffraction of annealed samples and in situ heating X-ray diffraction. In the latter case, the lattice [...]

Scanning time-resolved standoff Raman instrument for large-area mineral detectio...

[...] . Measurements are made in an x-y grid pattern on a target area defined by the user. The Raman spectra collected at each grid point are processed to identify the distribution of minerals present [...]

Mayenite supergroup, part II: Chlorkyuygenite from Upper Chegem, Northern Caucas...

[...] formula Ca11.979(Al12.986 Fe3+0.823Si0.179Ti4+0.033)14.021O32 [(H2O)3.767 Cl2.234]6. In the Raman spectra of chlorkyuygenite the following characteristic main bands are distinguished: 202, 321, 511, [...]

Mayenite supergroup, part III: Fluormayenite, Ca12Al14O32 [{square}4F2], and flu...

[...] composition Ca12.034(Al13.344Fe3+0.398 Si0.224)13.966O32[(H2O)3.810F1.894 (OH)0.296]6. Raman spectra of fluormayenite and fluorkyuygenite in the spectral region 200–1000 cm–1 are similar [...]

Nafertisite, Na3Fe2+ 10Ti2(Si6O17)2O2(OH)6F(H2O)2, from Mt. Kukisvumchorr, Khibi...

[...] microprobe; the Fe3+/(Fe2++Fe3+) ratio was measured by Mössbauer spectroscopy, and FTIR and Raman spectra were collected. The empirical formula was calculated on the basis of (O + F + OH + H2O) = 44. [...]

Mayenite supergroup, part I: Recommended nomenclature

[...] The mayenite supergroup, accepted by the IMA-CNMNC (proposal 13-C), is a new mineral supergroup comprising two [...]

Mayenite supergroup, part IV: Crystal structure and Raman investigation of Al-fr...

[...] Eltyubyuite, ideally Ca12Fe3+10Si4O32Cl6, a member of the mayenite supergroup, was originally described from altered xenoliths of the Upper Chegem, northern Caucasus, [...]

Mayenite supergroup, part III: Fluormayenite, Ca12Al14O32 [{square}4F2], and flu...

[...] minerals have the microporous tetrahedral framework structure characteristic of the mayenite supergroup. In fluormayenite 1/3 of the structural cages are occupied by fluorine. In [...]

Mayenite supergroup, part II: Chlorkyuygenite from Upper Chegem, Northern Caucas...

The new mineral chlorkyuygenite, Ca12Al14O32[(H2O)4Cl2] (I $$\overline{4}$$ 3d, a=12.0285(1)Å, V=1740.34(3)Å3), was discovered as an accessory miner [...]

Ion substitutions and structural adjustment in Cr-bearing tourmalines

[...] ) are established. An increasing Cr content in tourmaline causes an increase of both lattice parameters, of <Z–O> and <X–O> bond-lengths and a regular variation of the [...]

The crystal structure of jasrouxite, a Pb-Ag-As-Sb member of the lillianite homo...

[...] Jasrouxite, Ag16Pb4(Sb25As15)40S72, is triclinic, space group P-1, lattice parameters a = 8.2917(5), b = 19.101(1), c = 19.487(1) Å, α = 89.731(1)°, β = 83. [...]

Ab initio investigations of dioctahedral interlayer-deficient mica: modelling 1 ...

[...] -I) of illite found within gas shale, that can be used in future investigations. We examine lattice parameters, interatomic distances of tetrahedral and octahedral sheets, K–O distances, and K [...]

Atomistic simulations of mixing properties and the local structure of the (Ca, S...

[...] content. These structures are used for further investigation of the effect of mixing on the lattice parameters, local structure and elasticity of the Ca-Sr fluorapatite solid solution. Changes in the [...]

Nanoprobe crystallographic orientation studies of isolated shield elements of th...

[...] crystal orientation and interdigitation of the structural units were investigated by transmission electron microscopy imaging, selected-area and nano-probe electron diffraction. Focused ion beam [...]

A multi-technique, micrometer- to atomic-scale description of a synthetic analog...

[...] , Fourier Transform Infrared Spectroscopy, Scanning Electron Microscopy and Transmission Electron Microscopy. For the first time, the structural characterisation of a synthetic chukanovite is [...]

Element mobilization during feldspar metasomatism: an experimental study

[...] grains were characterized using X-ray diffraction, electron probe microanalysis, transmission electron microscopy as well as Raman and laser-induced photoluminescence spectroscopy. The replacement [...]

Impact of swelling clays on the spalling decay of building limestones: insights ...

[...] ;Pierre du Midi" samples showing various spalling degrees. The combination of transmission electron microscopy (TEM) coupled to energy-dispersive X-ray spectrometer (EDX) and of X-ray diffraction [...]

Koksharovite, CaMg2Fe3+4(VO4)6, and grigorievite, Cu3Fe3+2Al2(VO4)6, two new how...

[...] )(210), 2.811(26)(–1–22) for grigorievite. The crystal structure of both minerals [single-crystal X-ray diffraction data, R = 0.079 (koksharovite) and 0.055 (grigorievite)] is based on the pseudo- [...]

Kaliochalcite, KCu2(SO4)2[(OH)(H2O)], a new tsumcorite-group mineral from the To...

[...] (44)(22–2) and 1.693(37)(42–3, 22–4). The crystal structure was solved from single-crystal X-ray diffraction data, R = 0.100. The structure is built up from chains of edge-sharing Cu2+O6 [...]

Laachite, (Ca,Mn)2Zr2Nb2TiFeO14, a new zirconolite-related mineral from the Eife...

[...] ;, V = 1054.38(1) Å 3, Z = 4. The crystal structure was solved using single-crystal X-ray diffraction data. Laachite is a monoclinic analogue of zirconolite-3O, CaZrTi2O7, with Nb [...]

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Mercury-arsenic sulfosalts from Apuan Alps (Tuscany, Italy). I. Routhierite, (Cu...

[...] .19Fe0.02)=0.98(Hg1.89Zn0.15Cd0.01)=2.05Tl0.96(As1.35Sb0.60)=1.95(S5.99Cl0.01)=6.00. The crystal structure of routhierite from Monte Arsiccio mine was refined to R1 = 0.030 in the I-42m space group, [...]

Nafertisite, Na3Fe2+ 10Ti2(Si6O17)2O2(OH)6F(H2O)2, from Mt. Kukisvumchorr, Khibi...

[...] The crystal structure of nafertisite, Na3Fe2+10Ti2(Si6O17)2O2(OH)6F(H2O)2, from Mt. Kukisvumchorr, Khibiny [...]

Synthesis and crystal structure of tischendorfite, Pd8Hg3Se9

[...] tischendorfite, Pd8Hg3Se9, was prepared using the silica glass tube technique and its crystal structure was solved and refined from powder X-ray diffraction data. The structure is orthorhombic, [...]

Nicksobolevite, Cu7(SeO3)2O2Cl6, a new complex copper oxoselenite chloride from ...

[...] symmetrically independent Cu2+ positions with coordination numbers varying from 5 to 6. The crystal structure is based upon [O4Cu13] tetramers consisting of four corner-sharing OCu4 tetrahedra. The [...]

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