Source: http://nanotube.ru/en/about/publications?page=2
Timestamp: 2019-04-25 03:27:13+00:00

Document:
Simunin M., Bobrinetskiy I. Features of carbon nanotube based ceramics compounding on silicon dioxide // Book of abstracts “14 international Conference on the Science and Applications of nanotubes” – Espoo, Finland. - 2013. P. 305.
I. I. Bobrinetskii, V. K. Nevolin, and A. V. Romashkin, Quasi One Dimensional Molecular Transistors Based on Polyaniline and Carbon Nanotubes as Electrodes // Semiconductors, 2012, Vol. 46, No. 13, pp. 1593-1597.
I. I. Bobrinetskii, R. A. Morozov, A. S. Seleznev, R. Ya. Podchernyaeva, O. A. Lopatina. Proliferative Activity and Viability of Fibroblast and Glioblastoma Cell on Various Types of Carbon Nanotubes //Bulletin of Experimental Biology and Medicine. - 2012. - Vol. 153, Iss. 2, P. 259-262.
A. V. Bessonova, V. K. Nevolin, A. V. Romashkin, and K. A. Tsarik, Systematic Features of the Formation of Semiconductor Nanostructures using a Focused Ion Beam // Semiconductors, 2012, Vol. 46, No. 13, pp. 1604-1607.
Alekseev A. N., Petrov S. I., Nevolin V. K., Tsarik K. A., Krasovitskii D. M., Chalyi V. P. MBE-grown nanoheterostructures with increased electron mobility // Russian Microelectronics, 2012, Vol. 41, No. 7, pp. 400–404.
Неволин В.К. Атом водорода: что нового? // Наноинженерия. - 2012. - №12(18). - С. 44-46.
A.S. Seleznev, I.I. Bobrinetskiy, A.V. Romashkin, R.A. Morozov, O.A. Lopatina, R.Y. Podchernyaeva, I.A. Suetina. Carbon nanotube coatings for local electrical stimulation and visualization of living cells in vitro // VIII Russian-Bavarian conference on biomedical engineering. 2012. Saint-Petersburg. P. 215-216.
I. I. Bobrinetskiy, A. S. Seleznev, R. A. Morozov, O. A. Lopatina, R. Y. Podchernyaeva and I. A. Suetina, "Investigation of the Effect of Local Electrical Stimulation on Cells Cultured on Conductive Single-Walled Carbon Nanotube/Albumin Films," Journal of Biomaterials and Nanobiotechnology, Vol. 3 No. 3, 2012, pp. 377-384. doi: 10.4236/jbnb.2012.33036.
Bobrinetskiy I. I., Morozov R. A., Podgaetskiy V. M., Simunin M. M., Yaminskiy I. V. A Study of Bulky Nanotube Composites Based on Albumin by High_Resolution Microscopy // Biophysics 2011, Vol. 56, No. 2, pp. 194–199.
А.Н. Алексеев, С.И. Петров, В.К. Неволин, К.А. Царик, Д.М. Красовицкий, В.П. Чалый Наногетероструктуры на основе нитридов с повышенной подвижностью электронов, полученные методом МЛЭ // Известия вузов. ЭЛЕКТРОНИКА. - 2011. - №5. – С. 69-74.
Chaplygin Yu.A., Nevolin V.K., Petukhov V.A. ANODE-COOLING EFFECT UNDER THE ACTION OF COLD EMISSION FROM THE CATHODE // Doklady Physics. 2011. Т. 56. № 1. С. 1-3.
Nevolin V.K., Tsarik K.A. Formation and Atomic Force Spectroscopy of AlGaN/GaN Nanoheterostructures // Semiconductors. - 2010. - V. 44.- N. 13. - P. 1694–1698.
Bobrinetskiy I. I., Gorshkov K.V., Nevolin V.K., Tsarik K. A.. Formation of Integrated Nanosized Graphene Structures by Focused Ion_Beam Etching. // Nanotechnologies in Russia, 2010, Volume 5, Numbers 5-6. P. 313-319.
Gromov D.V., Elesin V.V., Petrov G.V., Borinetskiy I.I., Nevolin V.K. Radiation Effects in Nanoelectronic Elements Semiconductors, 2010, Vol. 44, No. 13, pp. 1699–1702.
Селезнёв А.С. Разработка устройства для наращивания биологической массы и формирования клеточных монослоев. // Сборник тезисов конференции Фонда содействия развитию малых форм предприятий в научно-технической сфере по программе "У.М.Н.И.К."
Bobrinetskiy I. I. Methods of parallel integration of carbon nanotubes during the formation of functional devices for microelectronics and sensor technologies // Russian Microelectronics, 2009, Volume 38, Number 5.
Bobrinetskiy I. I., Kolerov A. N., Nevolin V. K. Intracavity laser spectroscopy for the identification of nanomedia // Technical Physics Letters, 2009, Volume 35, Number 9. P. 800-803.
Bobrinetskiy I. I. Electrophoresis in the tasks of purifying, separating, and integrating carbon nanotubes // Nanotechnologies in Russia, 2009, Volume 4, Numbers 1-2.
Ageeva S. A., Bobrinetskiy I. I, Nevolin V. K, Podgaetskiy V. M, Selishchev S. V., Simunin M. M, Konov V. I. Savranskii Nanotube-based three-dimensional albumin composite obtained using continuous laser radiation // Semiconductors, 2009, Volume 43, Number 13.
Podgaetskiy V. M., Selishchev S. V., Bobrinetskiy I. I., Nevolin V. K.Volumetric nanodesign by new laser method. Application for medical purposes // Optical Memory & Neural Networks, 2008, Volume 17, Number 2.
Bobrinetskiy I. I., Nevolin V. K., Simunin M. M. Production of carbon nanotubes by catalytic gas-phase pyrolysis of ethanol // Theoretical Foundations of Chemical Engineering, 2007, Volume 41, Number 5.
Chaplygin Y. A., Nevolin V. K., Khartov S. V. Ballistic molecular conductors in an epoxy matrix // Doklady Physics, 2007, Volume 52, Number 2.
Патент на изобретение RU2306257C1,Российская Федерация, МПК B82B 3/00. Способ формирования нано-(микро)систем из углеродных нанотрубок // Гарипов В.Г., Ильичев Э.А., Инкин В.Н., Полторацкий Э.А., Рычков Г.С., Царик К.А.; заявитель и патентообладатель ФГУП "Научно-исследовательский институт физических проблем им. Ф.В. Лукина". - Заявка: 2005140844/28, 26.12.2005. Опубликовано: 20.09.2007, Бюл № 26.
Bobrinetskiy I. I., Kukin V. N., Nevolin V. K., Simunin M. M. Carbon nanomaterial studied by atomic-force and electron microscopies // Semiconductors, 2008,Volume 42, Number 13.
Nevolin V. K. Thermal effect on anode during field electron emission from cathode // Technical Physics Letters, 2006, Volume 32, Number 12.
Bobrinetskiy I. I., Nevolin V. K., Khartov S. V., Chaplygin Y. A. // Field-modulated conductivity in quasi-one-dimensional molecular conductors // Technical Physics Letters, 2005, Volume 31, Number 10.
Bobrinetskiy I. I., Nevolin V. K., Stroganov A. A., Chaplygin Y. A. Controlling Electrical Transport through Bundles of Single-Wall Carbon Nanotubes // Russian Microelectronics, 2004, Volume 33, Number 5.
Bobrinetskiy I. I., Nevolin V. K., Petrik V. I., Stroganov A. A., Chaplygin Y. A. The atomic structure of nanotubes synthesized from a carbon mix of high reaction ability // Technical Physics Letters, 2003, Volume 29, Number 4.
Bobrinetskiy I. I., Nevolin V. K., Petrik V. I., Chaplygin Y. A. Current–Voltage Characteristics of Two-Electrode Elements with Carbon Nanotubes // Russian Microelectronics, 2003, Volume 32, Number 2.
Galiev G. B., Kaminskiy V. E., Mokerov V. G., Nevolin V. K., Saraikin V. V., Slepnev Y. V. Investigation of distribution and redistribution of silicon in thin doped gallium-arsenide layers grown by molecular beam epitaxy on substrates with (100), (111)Ga, and (111)As orientations // Semiconductors, 2000, Volume 34, Number 7.
Nevolin V. K. Negative differential conductance of quasi-one-dimensional contacts // Technical Physics Letters,1998, Volume 24, Number 6.

References: V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V.