Search Results - "Spitsyn, B.V"

Inroad to modification of detonation nanodiamond by Spitsyn, B.V., Davidson, J.L., Gradoboev, M.N., Galushko, T.B., Serebryakova, N.V., Karpukhina, T.A., Kulakova, I.I., Melnik, N.N.

“…Our research is directed towards finding inroad(s) for conversion of detonation nanodiamond to more standard nanopowder with, first of all, enhancement of…”
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Application of aluminum nitride films for electronic devices by Belyanin, A.F, Bouilov, L.L, Zhirnov, V.V, Kamenev, A.I, Kovalskij, K.A, Spitsyn, B.V

“…AlN films were grown by RF-magnetron reactive sputtering of Al-target in Ar+N 2 gaseous mixture. In the dependence on deposition conditions the films may be…”
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Modification and functional properties of detonation nanodiamond by Grechikhina, A. M., Abaturov, M. A., Alexenko, A. E., Galushko, T. B., Melnik, N. N., Gorbunov, A. M., Kiselev, M. R., Polushin, N. I., Zavaleyev, V. A., Spitsyn, B. V.

“…Original termination of the detonation nanodiamond (DND) was changed by active chemical media interaction. Oxidation in boiling chloric acid, by hydrogen and…”
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Binding of diamond powder layers by CVD diamond by Eremin, S.A., Anikin, V.N., Sinitsyn, D.Y., Leontiev, I.A., Kudryashov, O.Yu, Khovaylo, V.V., Spitsyn, B.V.

“…•Additive formation of products from diamond powders by chemical vapor deposition (CVD) method is proposed.•Diamond powders of different size were…”
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The Effect of Modified Nanodiamonds on the Wettability of the Surface of an Optical Oxygen Sensor and Biological Fouling During Long-Term in Situ Measurements by Aleksandrovskaya, A. Yu, Melnikov, P. V., Safonov, A. V., Abaturova, N. A., Spitsyn, B. V., Naumova, A. O., Zaitsev, N. K.

“…— A method is proposed for controlling the wettability of the surface of a fluorinated material and for controlling its biofouling by introducing modified…”
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The physical–chemical study of detonation nanodiamond application in adsorption and chromatography by Spitsyn, B.V., Denisov, S.A., Skorik, N.A., Chopurova, A.G., Parkaeva, S.A., Belyakova, L.D., Larionov, O.G.

“…In the present work, the study on detonation nanodiamond (DND) powders modifications in gaseous media was carried out. The surface properties of DND were…”
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Electrochemical and Structural Studies of Nanodiamond Composites by Sosenkin, V. E., Aleksenko, A. E., Rychagov, A. Yu, Mayorova, N. A., Ovchinnikov-Lazarev, M. A., Spitsyn, B. V., Vol’fkovich, Yu. M.

“…The method of detonation synthesis is used to obtain nanodiamond composites (NDCs), and electrochemical and porosimetric studies are carried out for some NDC…”
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Analysis of the Vacancy System of Restructured Zinc by the Positron Annihilation Method by Solov’ev, E. M., Spitsyn, B. V., Laptev, R. S., Lider, A. M., Bordulev, Yu. S., Mikhailov, A. A.

“…We have obtained restructured zinc (high-purity zinc prepared by mechanothermal action of various intensity levels) and have analyzed its structure by the…”
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Thermal desorption study of bonded hydrogen in diamond films by Arkhipov, I.I., Spitsyn, B.V., Gorodetsky, A.E., Zakharov, A.P., Popovici, G., Sung, T., Prelas, M.A., Khasawinah, S.

“…The amount of bonded hydrogen in polycrystalline diamond films grown by hot filament CVD at various deposition temperatures was measured by the thermal…”
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The effect of nanodiamond surface modification on interaction with Pseudomonas putida K12 by Isakova, A. A., Safonov, A. V., Alexandrovskaya, A. Yu, Galushko, T. B., Indenbom, A. V., Spitsyn, B. V.

“…Interactions between nanodiamonds with an unmodified surface and nanodiamonds with chlorinated, as well as aminated, surfaces and the bacterium surfaces and…”
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Superconductivity in boron-doped diamond by Sidorov, V.A., Ekimov, E.A., Bauer, E.D., Mel'nik, N.N., Curro, N.J., Fritsch, V., Thompson, J.D., Stishov, S.M., Alexenko, A.E., Spitsyn, B.V.

“…Here we report the experimental study of a new superconductor, B-doped diamond. Subjecting a mixture of amorphous boron with graphite to a high-temperature and…”
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Diamond nucleation by activated CVD by Spitsyn, B.V.

“…The authors compare experimental observations on diamond nucleation with relative data connected with other substances adhering in finely dividing state to the…”
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Prospects of novel hybrid methods for the activated chemical vapor deposition of diamond by Spitsyn, B.V., Bouilov, L.L., Alexenko, A.E.

“…High-intensity activation of the vapor phase is a necessary condition for diamond synthesis in the customary chemical vapor deposition (CVD) of diamond. In…”
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AIN heteroepitaxial and oriented films grown on (111), (110) and (100) natural diamond faces by Spitsyn, B.V., Hsu, W.L., Gorodetsky, A.E., Zalavutdinov, R.Kh, Zakharov, A.P., Bouilov, L.L., Stoyan, V.P., Dvoryankin, V.F., Chaplygin, G.V.

“…CVD growth of A1N thin films on (100), (110) and (111) diamond C α substrates was observed, and RHEED and EPMP were used to provide the evidence of growth of…”
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Field emitters based on Si tips with AlN coating by Spitsyn, B.V., Zhirnov, V.V., Blaut-Bachev, A.N., Bormatova, L.V., Belyanin, A.F., Pashchenko, P.V., Bouilov, L.L., Givargizov, E.I.

“…Silicon field emitters were coated with AlN by a reactive magnetron sputtering technique. The thickness of the coatings varied from 0.5 to 2 μm. Emission…”
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Study of color centers in hot-filament CVD diamond films by cathodoluminescence and photoluminescence and their correlations with film quality by Lin, L.-T.S., Popovici, Galina, Mori, Y., Hiraki, A., Prelas, M.A., Spitsyn, B.V., Khasawinah, S., Sung, T.

“…The color centers on the front and back of five free-standing diamond films grown by hot-filament CVD were characterized by cathodoluminescence and…”
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AlN films grown on diamond and silicon carbide by Gorodetsky, A.E., Zalavutdinov, R.Kh, Zakharov, A.P., Hsu, W.L., Spitsyn, B.V., Bouilov, L.L., Stoyan, V.P.

“…Structural changes in surface layers of CVD AlN films were studied by the reflection high-energy electron diffraction technique. Film thickness was varied from…”
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Raman scattering characterization of (100) and (111) oriented diamond films grown in the same run by hot filament chemical vapor deposition by Popovici, G., Khasawinah, S., Sung, T., Prelas, M.A., Spitsyn, B.V., Loyalka, S., Tompson, R., Chamberlaine, J., White, H.

“…The crystalline quality of a diamond film with two different preferential orientations (100) and (111), obtained in the same run by hot filament chemical…”
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