Комплексные подходы к характеризации наноалмазов детонационного синтеза и их коллоидных растворов (1105580), страница 44
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J. G. M., Navas J. M. Species-specific toxicity of copper nanoparticles amongmammalian and piscine cell lines // Nanotoxicology. — 2013. — Vol. 8, N. 4. — P. 383-393.220. Böhmert L., Girod M., Hansen U., Maul R., Knappe P., Niemann B., Weidner S. M.,Thünemann A. F., Lampen A. Analytically monitored digestion of silver nanoparticles and theirtoxicity on human intestinal cells // Nanotoxicology. — 2014. — Vol. 8, N.
6. — P. 631-642.221. Wang B., Feng W. Y., Wang T. C., Jia G., Wang M., Shi J. W., Zhang F., Zhao Y. L., Chai Z. F.Acute toxicity of nano- and micro-scale zinc powder in healthy adult mice // Toxicol Lett. — 2006. —Vol. 161, N. 2. — P. 115-123.222. Li J.-h., Liu X.-r., Zhang Y., Tian F.-f., Zhao G.-y., Yu Q.-l.-y., Jiang F.-l., Liu Y. Toxicity ofnano zinc oxide to mitochondria // Toxicology Research. — 2012. — Vol. 1, N. 2. — P.
137-144.223. Chang X., Zhang Y., Tang M., Wang B. Health effects of exposure to nano-TiO2: a metaanalysis of experimental studies // Nanoscale Res Lett. — 2013. — Vol. 8, N. 1. — P. 51.224. Aleksenskii A., Vul’ A., Konyakhin S., Reich K., Sharonova L., Eidel’man E. Opticalproperties of detonation nanodiamond hydrosols // Physics of the Solid State. — 2012.
— Vol. 54, N.3. — P. 578-585.225. Liu X., Guo L., Morris D., Kane A. B., Hurt R. H. Targeted removal of bioavailable metal as adetoxification strategy for carbon nanotubes // Carbon. — 2008. — Vol. 46, N. 3. — P. 489-500.226. Kozyrev N. Using the tracer method to study detonation processes // Combustion, Explosion,and Shock Waves. — 2008.
— Vol. 44, N. 6. — P. 698-703.227. Lam C. W., James J. T., McCluskey R., Arepalli S., Hunter R. L. A review of carbon nanotubetoxicity and assessment of potential occupational and environmental health risks // Crit Rev Toxicol.— 2006. — Vol. 36, N. 3. — P. 189-217.223228. Qi W., Li Z., Bi J. J., Wang J., Wang J. J., Sun T.
L., Guo Y. A., Wu W. S. Biodistribution of coexposure to multi-walled carbon nanotubes and nanodiamonds in mice // Nanoscale Research Letters.— 2012. — Vol. 7.229. Magdalinova N. A., Klyuev M. V., Vershinin N. N., Efimov O. N. Pt- and Pd-containingnanodiamonds in hydrogenation and hydroamination reactions // Kinetics and Catalysis. — 2012. —Vol.
53, N. 4. — P. 482-485.230. Magdalinova N. A., Kalmykov P. A., Klyuev M. V. Palladium-containing nanodiamonds inhydrogenation and hydroamination // Petroleum Chemistry. — 2012. — Vol. 52, N. 5. — P. 299-304.231. Golubina E. V., Lokteva E. S., Majouga A. G., Lobanov M. V., Lunin V. V. Ultradisperseddiamond as an excellent support for Pd and Au nanoparticle based catalysts for hydrodechlorinationand CO oxidation // Diamond and Related Materials. — 2011. — Vol. 20, N. 7. — P. 960-964.232. Tsoncheva T., Mavrodinova V., Ivanova L., Dimitrov M., Stavrev S., Minchev C.
Nickelmodified ultrananosized diamonds and their application as catalysts in methanol decomposition //Journal of Molecular Catalysis A: Chemical. — 2006. — Vol. 259, N. 1–2. — P. 223-230.233. Mavrodinova V., Popova M., Kolev I., Stavrev S., Minchev C. Effect of the preparationconditions of Ni-supported shock-wave synthesized nanodiamond catalysts: FT-IR and catalyticconsiderations // Applied Surface Science. — 2007.
— Vol. 253, N. 17. — P. 7115-7123.234. Tsoncheva T., Ivanova L., Paneva D., Dimitrov M., Mitov I., Stavrev S., Minchev C. Ironoxide-modified nanosized diamond: Preparation, characterization, and catalytic properties in methanoldecomposition // Journal of Colloid and Interface Science. — 2006. — Vol. 302, N. 2. — P.
492-500.235. Tsoncheva T., Dimitrov M., Ivanova L., Paneva D., Mitev D., Tsintsarski B., Mitov I., StavrevS., Minchev C. Iron oxide modified diamond blends containing ultradispersed diamond // Journal ofColloid and Interface Science. — 2006. — Vol. 300, N. 1. — P. 183-189.236. Bogatyreva G. P., Marinich M. A., Zabuga V.
Y., Tsapyuk G. G., Panova A. N., Bazalii G. A.The effect of surface modification on thermal stability of nanodiamonds // Journal of SuperhardMaterials. — 2008. — Vol. 30, N. 5. — P. 305-310.237. Bogatyreva G. P., Zabuga V. Y., Tsapyuk G. G., Kuzmich A. N. Influence of micro-impuritiesof ultradispersed diamond on the oxidation kinetics // Rock cutting and metal-machining tools machinery and technology of its production and application: Proceedings. — 2004. N. 6. — P. 107110.238. Novikov N. V., Bogatyreva G.
P. Nanodiamonds of static and detonation syntheses andprospects for their applications // Journal of Superhard Materials. — 2008. — Vol. 30, N. 2. — P. 7381.239. Dolmatov V. Y. On elemental composition and crystal-chemical parameters of detonationnanodiamonds // Journal of Superhard Materials. — 2009. — Vol. 31, N. 3. — P. 158-164.224240. Губаревич Т. М., Кулагина Ю. В., Полева Л.
И., Пятериков В. Ф., Долматов В. Ю.Меллитовая кислота из конденсированного алмазсодержащего углерода детонационнойприроды // Журнал прикладной химии. — 1993. — T. 66, № 8. — C. 1882-1885.241. Мордвинова Л. Е., Шамшурин А. В. Аппроксимация функциями Лоренца спектральныхданных о составе детонационных наноалмазов // Альтернативная энергетика и экология. —2007.
— T. № 6 (50). — C. 90-93.242. Lokteva E. S., Golubina E. V., Kachevskii S. A., Kharlanov A. N., Erokhin A. V., Lunin V. V.Ultradispersed diamond as a new carbon support for hydrodechlorination catalysts // Kinetics andCatalysis. — 2011. — Vol. 52, N. 1. — P. 145-155.243.
Novikov N. V., Bogatyreva G. P., Nevstruev G. F., Il'nitskaya G. D., Voloshin M. N. Magneticmethods of purification control of nanodiamond powders // Physics of the Solid State. — 2004. — Vol.46, N. 4. — P. 672-674.244. Shames A. I., Panich A. M., Kempinski W., Aleksenskii A. E., Baidakova M. V., Dideikin A.T., Osipov V. Y., Siklitski V. I., Osawa E., Ozawa M., Vul A. Y. Defects and impurities innanodiamonds: EPR, NMR and TEM study // Journal of Physics and Chemistry of Solids. — 2002.
—Vol. 63, N. 11. — P. 1993-2001.245. Aleksenskiy A. E., Eydelman E. D., Vul A. Y. Deagglomeration of Detonation Nanodiamonds// Nanoscience and Nanotechnology Letters. — 2011. — Vol. 3, N. 1. — P. 68-74.246. Mitev D. P., Townsend A. T., Paull B., Nesterenko P. N. Direct sector field ICP-MSdetermination of metal impurities in detonation nanodiamond // Carbon. — 2013. — Vol.
60, N. 0. —P. 326-334.247. Dubois M., Guérin K., Petit E., Batisse N., Hamwi A., Komatsu N., Giraudet J. r. m., Pirotte P.,Masin F. Solid-State NMR Study of Nanodiamonds Produced by the Detonation Technique // TheJournal of Physical Chemistry C. — 2009. — Vol. 113, N. 24. — P. 10371-10378.248.
The Sadtler Handbook of Infrared Spectra / Cост. Simons W. W. — Philadelphia, US: SadtlerResearch Laboratories, 1978.249. Panich A. M. Solid state nuclear magnetic resonance studies of nanocarbons // Diamond andRelated Materials. — 2007. — Vol. 16, N. 12. — P. 2044-2049.250. Dubois M., Guerin K., Batisse N., Petit E., Hamwi A., Komatsu N., Kharbache H., Pirotte P.,Masin F. Solid State NMR study of nanodiamond surface chemistry // Solid State Nuclear MagneticResonance. — 2011. — Vol. 40, N.
4. — P. 144-154.251. Panich A. M., Shames A. I., Vieth H. M., Ōsawa E., Takahashi M., Vul A. Y. Nuclear magneticresonance study of ultrananocrystalline diamonds // Eur. Phys. J. B. — 2006. — Vol. 52, N. 3. — P.397-402.225252. Fang X., Mao J., Levin E. M., Schmidt-Rohr K. Nonaromatic Core−Shell Structure ofNanodiamond from Solid-State NMR Spectroscopy // Journal of the American Chemical Society. —2009.
— Vol. 131, N. 4. — P. 1426-1435.253. Alam T. M. Solid-state 13C magic angle spinning NMR spectroscopy characterization ofparticle size structural variations in synthetic nanodiamonds // Materials Chemistry and Physics. —2004. — Vol. 85, N. 2-3. — P. 310-315.254. Белобров, П.И., Гордеев С. К., Петраковская Е. А., Фалалеев О. В. Парамагнитныесвойства наноалмазов // Доклады Академии Наук. — 2001. — T. №.
— C.255. Shames A. I., Panich A. M., Kempinski W., Alexenskii A. E., Baidakova M. V., Dideikin A. T.,Osipov V. Y., Siklitski V. I., Osawa E., Ozawa M., Vul A. Y. Defects and impurities in nanodiamonds:EPR, NMR and TEM study // Journal of Physics and Chemistry of Solids.
— 2002. — Vol. 63, N. 11.— P. 1993-2001.256. Prasad B. L. V., Sato H., Enoki T., Hishiyama Y., Kaburagi Y., Rao A. M., Eklund P. C., OshidaK., Endo M. Heat-treatment effect on the nanosized graphite pi -electron system during diamond tographite conversion // Physical Review B. — 2000. — Vol. 62, N. 16. — P. 11209.257. Andersson O. E., Prasad B.
L. V., Sato H., Enoki T., Hishiyama Y., Kaburagi Y., Yoshikawa M.,Bandow S. Structure and electronic properties of graphite nanoparticles // Physical Review B. — 1998.— Vol. 58, N. 24. — P. 16387.258. Ivanov-omskii V. I., Tolmatchev A. V., Yastrebov S. G. Optical absorption of amorphouscarbon doped with copper // Philosophical Magazine Part B. — 1996. — Vol. 73, N. 4. — P. 715 - 722.259.
Chu V., Conde J. P., Jarego J., Brogueira P., Rodriguez J., Barradas N., Soares J. C. Transportand photoluminescence of hydrogenated amorphous silicon--carbon alloys // Journal of AppliedPhysics. — 1995. — Vol. 78, N. 5. — P. 3164-3173.260. Stumm P., Drabold D. A. Structural and electronic properties of nitrogen doped fourfoldamorphous carbon // Solid State Communications. — 1995. — Vol. 93, N. 7. — P. 617-621.261.
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