Your search keyword '"Lykova, Inna"' showing total 59 results

51. Sanguite, KCuCl3, A New Mineral From the Tolbachik Volcano, Kamchatka, Russia

Author

Pekov, Igor V., primary, Zubkova, Natalia V., additional, Belakovskiy, Dmitry I., additional, Lykova, Inna S., additional, Yapaskurt, Vasiliy O., additional, Vigasina, Marina F., additional, Sidorov, Evgeny G., additional, and Pushcharovsky, Dmitry Yu., additional

Published

2015

52. New zinc and potassium chlorides from fumaroles of the Tolbachik volcano, Kamchatka, Russia: mineral data and crystal chemistry. I. Mellizinkalite, K3Zn2Cl7

Author

Pekov, Igor V., primary, Zubkova, Natalia V., additional, Yapaskurt, Vasiliy O., additional, Lykova, Inna S., additional, Belakovskiy, Dmitry I., additional, Vigasina, Marina F., additional, Sidorov, Evgeny G., additional, Britvin, Sergey N., additional, and Yu. Pushcharovsky, Dmitry, additional

Published

2015

53. Chrysothallite K6Cu6Tl3+Cl17(OH)4·H2O, a new mineral species from the Tolbachik volcano, Kamchatka, Russia

Author

Pekov, Igor V., primary, Zubkova, Natalia V., additional, Belakovskiy, Dmitry I., additional, Yapaskurt, Vasiliy O., additional, Vigasina, Marina F., additional, Lykova, Inna S., additional, Sidorov, Evgeny G., additional, and Pushcharovsky, Dmitry Yu., additional

Published

2015

54. Whitecapsite, a new hydrous iron and trivalent antimony arsenate mineral from the White Caps mine, Nevada, USA

Author

Pekov, Igor V., primary, Zubkova, Natalia V., additional, Göttlicher, Jörg, additional, Yapaskurt, Vasiliy O., additional, Chukanov, Nikita V., additional, Lykova, Inna S., additional, Belakovskiy, Dmitry I., additional, Jensen, Martin C., additional, Leising, Joseph F., additional, Nikischer, Anthony J., additional, and Pushcharovsky, Dmitry Y., additional

Published

2014

55. Fumarolic arsenates - a special type of arsenic mineralization

Author

Pekov, Igor V., Koshlyakova, Natalia N., Zubkova, Natalia V., Lykova, Inna S., Britvin, Sergey N., Yapaskurt, Vasiliy O., Agakhanov, Atali A., Shchipalkina, Nadezhda V., Turchkova, Anna G., and Sidorov, Evgeny G.

Abstract

This paper is a review devoted to a special type of arsenic mineralization related to volcanic fumaroles of the oxidizing type. Fifty-four hydrogen-free arsenates (40 valid species and 14 insufficiently characterized phases) with Cu2+, Mg, Al, Fe3+, Ti4+, Zn, Ca, Na, and K are identified here and 46 of them are endemics of fumarolic formation. Fifty-three of them have been found in active fumaroles at the Tolbachik volcano, Kamchatka, Russia. Thirty different structure types have been established for fumarolic arsenates, including 19 previously unknown among minerals. The alkali-richest (>17?wt% Na2O?+?K2O) and Ti-richest (12–28?wt% TiO2) natural arsenates occur in Tolbachik fumaroles. Nineteen fumarolic arsenates with Cu2+, Al, Fe3+ or Ti contain additional O2- anions. The major fumarolic arsenates at Tolbachik are alluaudite-group members (johillerite, calciojohillerite, nickenichite, bradaczekite and badalovite), lammerite, svabite, tilasite, berzeliite and urusovite. All Tolbachik arsenates crystallized at temperatures =450?°C (the major assumed temperature interval is 500–750?°C), under atmospheric pressure and high oxygen fugacity. They were precipitated directly from the gas phase as volcanic sublimates, or were formed as a result of gas–rock interaction in fumarolic cameras, where the host basalt was the source of the less volatile elements Al, Ti, Mg and Ca. The empirical data on fumarolic As5+ minerals are summarized and discussed, including their chemistry, crystal chemistry (with special attention paid to isomorphic substitutions and solid solutions) and occurrence. Electron-microprobe analyses illustrating the chemical diversity and variability of 53 fumarolic arsenates are given as supplementary data, as well as a photographic documentation of their morphology and paragenetic relationships.

Published

2018

56. The crystal structure of the natural 1,2,4-triazolate compound NaCu2Cl3[N3C2H2]2[NH3]2·4H2O.

Author

Zubkova, Natalia V., Chukanov, Nikita V., Pekov, Igor V., Möhn, Gerhard, Giester, Gerald, Yapaskurt, Vasiliy O., Lykova, Inna S., and Pushcharovsky, Dmitry Yu.

Subjects

CRYSTAL structure research, X-ray diffraction, ORGANOMETALLIC compounds research, LEACHING, CATIONS

Abstract

The crystal structure of a new natural compound NaCu2Cl3[N3C2H2]2[NH3]2·4H2O, (further denoted I in the text) from a guano deposit located on the Pabellón de Pica Mountain, Iquique Province, Tarapacá Region, Chile, was studied by single-crystal low-temperature (200 K) XRD, R = 2.42 %. The compound I is orthorhombic, space group P212121; a = 19.484(3), b = 7.2136(10), c = 11.999(4) Å, V = 1686.5(7) Å3, Z = 4. The crystal structure of I contains zig-zag chains of the corner-sharing Cu(1)-centered octahedra running along the a axis and isolated Cu(2)- centered octahedra connected with the chains via 1,2,4-triazolate anions. This structural fragment is close to that found in the mineral chanabayaite, Cu2(N3C2H2)2Cl(NH3, Cl, H2O, ⌀)4. In contrast to Na-free chanabayaite, in the structure of I Na cations occupy Na(H2O)6 octahedra connected via common edges to form chains parallel to the chains of Cu(1)-centered octahedra. I is the second natural compound, after chanabayaite, with 1,2,4-triazolate anions N3C2H2 - and is assumed to be a protophase of chanabayaite; the latter was presumably formed as a result of Na and Cl leaching and dehydration of I. [ABSTRACT FROM AUTHOR]

Published

2016

57. The crystal structure of the natural 1,2,4-triazolate compound NaCu2Cl3[N3C2H2]2[NH3]2·4H2O

Author

Zubkova, Natalia V., Chukanov, Nikita V., Pekov, Igor V., Möhn, Gerhard, Giester, Gerald, Yapaskurt, Vasiliy O., Lykova, Inna S., and Pushcharovsky, Dmitry Yu.

Abstract

The crystal structure of a new natural compound NaCu2Cl3[N3C2H2]2[NH3]2·4H2O, (further denoted Iin the text) from a guano deposit located on the Pabellón de Pica Mountain, Iquique Province, Tarapacá Region, Chile, was studied by single-crystal low-temperature (200 K) XRD, R=2.42%. The compound Iis orthorhombic, space group P212121; a=19.484(3), b=7.2136(10), c=11.999(4) Å, V=1686.5(7) Å3, Z=4. The crystal structure of Icontains zig-zag chains of the corner-sharing Cu(1)-centered octahedra running along the aaxis and isolated Cu(2)-centered octahedra connected with the chains via1,2,4-triazolate anions. This structural fragment is close to that found in the mineral chanabayaite, Cu2(N3C2H2)2Cl(NH3, Cl, H2O, □)4. In contrast to Na-free chanabayaite, in the structure of INa cations occupy Na(H2O)6octahedra connected viacommon edges to form chains parallel to the chains of Cu(1)-centered octahedra. Iis the second natural compound, after chanabayaite, with 1,2,4-triazolate anions N3C2H2–and is assumed to be a protophase of chanabayaite; the latter was presumably formed as a result of Na and Cl leaching and dehydration of I.

Published

2016

58. THE RUBTSOVSKOE DEPOSIT.

Author

Pekov, Igor V. and Lykova, Inna S.

Subjects

*COPPER mining, *MINES & mineral resources, *MINERALOGY, *CRYSTALLOGRAPHY, *MINERAL industries

Abstract

The article features the Rubtsovskiy copper mine in western Siberia which contains the mineral cuprite. Topics include the crystallized specimens of native copper found in the Rubtsovskoe deposit during the late 2000s, previous studies and research conducted in the area which looked at the structure, mineralogy, and origins of the deposit, and a brief history of the mine which was discovered on June 27, 1970.

Published

2014

59. Dioskouriite, CaCu 4 Cl 6 (OH) 4 ∙4H 2 O: A New Mineral Description, Crystal Chemistry and Polytypism.

Author

Pekov, Igor V., Zubkova, Natalia V., Zolotarev, Andrey A., Yapaskurt, Vasiliy O., Krivovichev, Sergey V., Belakovskiy, Dmitry I., Lykova, Inna, Vigasina, Marina F., Kasatkin, Anatoly V., Sidorov, Evgeny G., and Pushcharovsky, Dmitry Yu.

Subjects

ATMOSPHERIC water vapor, MINERALS, ELECTRON probe microanalysis, VOLCANIC gases, GREEK mythology, PHONONIC crystals, UNIT cell

Abstract

A new mineral, dioskouriite, CaCu4Cl6(OH)4∙4H2O, represented by two polytypes, monoclinic (2M) and orthorhombic (2O), which occur together, was found in moderately hot zones of two active fumaroles, Glavnaya Tenoritovaya and Arsenatnaya, at the Second scoria cone of the Northern Breakthrough of the Great Tolbachik Fissure Eruption, Tolbachik volcano, Kamchatka, Russia. Dioskouriite seems to be a product of the interactions involving high-temperature sublimate minerals, fumarolic gas and atmospheric water vapor at temperatures not higher than 150 °C. It is associated with avdoninite, belloite, chlorothionite, eriochalcite, sylvite, halite, carnallite, mitscherlichite, chrysothallite, sanguite, romanorlovite, feodosiyite, mellizinkalite, flinteite, kainite, gypsum, sellaite and earlier hematite, tenorite and chalcocyanite in Glavnaya Tenoritovaya and with avdoninite and earlier hematite, tenorite, fluorophlogopite, diopside, clinoenstatite, sanidine, halite, aphthitalite-group sulfates, anhydrite, pseudobrookite, powellite and baryte in Arsenatnaya. Dioskouriite forms tabular, lamellar or flattened prismatic, typically sword-like crystals up to 0.01 mm × 0.04 mm × 0.1 mm combined in groups or crusts up to 1 × 2 mm2 in area. The mineral is transparent, bright green with vitreous luster. It is brittle; cleavage is distinct. The Mohs hardness is ca. 3. Dmeas is 2.75(1) and Dcalc is 2.765 for dioskouriite-2O and 2.820 g cm−3 for dioskouriite-2M. Dioskouriite-2O is optically biaxial (+), α = 1.695(4), β = 1.715(8), γ = 1.750(6) and 2Vmeas. = 70(10)°. The Raman spectrum is reported. The chemical composition (wt%, electron microprobe data, H2O calculated by total difference; dioskouriite-2O/dioskouriite-2M) is: K2O 0.03/0.21; MgO 0.08/0.47; CaO 8.99/8.60; CuO 49.24/49.06; Cl 32.53/32.66; H2O(calc.) 16.48/16.38; -O=Cl −7.35/−7.38; total 100/100. The empirical formulae based on 14 O + Cl apfu are: dioskouriite-2O: Ca1.04(Cu4.02Mg0.01)Σ4.03[Cl5.96(OH)3.90O0.14]Σ10∙4H2O; dioskouriite-2M: (Ca1.00K0.03)Σ4.03(Cu4.01Mg0.08)Σ4.09[Cl5.99(OH)3.83O0.18]Σ10∙4H2O. Dioskouriite-2M has the space group P21/c, a = 7.2792(8), b = 10.3000(7), c = 20.758(2) Å, β = 100.238(11)°, V = 1531.6(2) Å3 and Z = 4; dioskouriite-2O: P212121, a = 7.3193(7), b = 10.3710(10), c = 20.560(3) Å, V = 1560.6(3) Å3 and Z = 4. The crystal structure (solved from single-crystal XRD data, R = 0.104 and 0.081 for dioskouriite-2M and -2O, respectively) is unique. The structures of both polytypes are based upon identical BAB layers parallel to (001) and composed from Cu2+-centered polyhedra. The core of each layer is formed by a sheet A of edge-sharing mixed-ligand octahedra centered by Cu(1), Cu(2), Cu(3), Cu(5) and Cu(6) atoms, whereas distorted Cu(4)(OH)2Cl3 tetragonal pyramids are attached to the A sheet on both sides, along with the Ca(OH)2(H2O)4Cl2 eight-cornered polyhedra, which provide the linkage of the two adjacent layers via long Ca−Cl bonds. The Cu(4) and Ca polyhedra form the B sheet. The difference between the 2M and 2O polytypes arises as a result of different stacking of layers along the c axis. The cation array of the layer corresponds to the capped kagomé lattice that is also observed in several other natural Cu hydroxychlorides: atacamite, clinoatacamite, bobkingite and avdoninite. The mineral is named after Dioskouri, the famous inseparable twin brothers of ancient Greek mythology, Castor and Polydeuces, the same in face but different in exercises and achievements; the name is given in allusion to the existence of two polytypes that are indistinguishable in appearance but different in symmetry, unit cell configuration and XRD pattern. [ABSTRACT FROM AUTHOR]

Published

2021