Подписаться
Oleg Baranov
Oleg Baranov
National Aerospace University "Kharkiv Aviation Institute"
Подтвержден адрес электронной почты в домене khai.edu
Название
Процитировано
Процитировано
Год
Plasma under control: Advanced solutions and perspectives for plasma flux management in material treatment and nanosynthesis
O Baranov, K Bazaka, H Kersten, M Keidar, U Cvelbar, S Xu, I Levchenko
Applied Physics Reviews 4 (4), 2017
892017
Oriented carbon nanostructures by plasma processing: recent advances and future challenges
NM Santhosh, G Filipič, E Tatarova, O Baranov, H Kondo, M Sekine, ...
Micromachines 9 (11), 565, 2018
732018
MoS2-based nanostructures: synthesis and applications in medicine
K Bazaka, I Levchenko, JWM Lim, O Baranov, C Corbella, S Xu, M Keidar
Journal of Physics D: Applied Physics 52 (18), 183001, 2019
682019
Plasma and polymers: Recent progress and trends
I Levchenko, S Xu, O Baranov, O Bazaka, EP Ivanova, K Bazaka
Molecules 26 (13), 4091, 2021
632021
From nanometre to millimetre: a range of capabilities for plasma-enabled surface functionalization and nanostructuring
O Baranov, I Levchenko, JM Bell, JWM Lim, S Huang, L Xu, B Wang, ...
Materials Horizons 5 (5), 765-798, 2018
562018
Lightning under water: Diverse reactive environments and evidence of synergistic effects for material treatment and activation
I Levchenko, K Bazaka, O Baranov, RM Sankaran, A Nomine, T Belmonte, ...
Applied Physics Reviews 5 (2), 2018
552018
Oxygen plasmas: a sharp chisel and handy trowel for nanofabrication
K Bazaka, O Baranov, U Cvelbar, B Podgornik, Y Wang, S Huang, L Xu, ...
Nanoscale 10 (37), 17494-17511, 2018
512018
Simulation of island behavior in discontinuous film growth
I Levchenko, O Baranov
Vacuum 72 (2), 205-210, 2003
422003
A deterministic approach to the thermal synthesis and growth of 1D metal oxide nanostructures
O Baranov, M Košiček, G Filipič, U Cvelbar
Applied Surface Science 566, 150619, 2021
342021
Formation of vertically oriented graphenes: what are the key drivers of growth?
O Baranov, I Levchenko, S Xu, JWM Lim, U Cvelbar, K Bazaka
2D Materials 5 (4), 044002, 2018
342018
Growth dynamics of copper oxide nanowires in plasma at low pressures
G Filipič, O Baranov, M Mozetič, U Cvelbar
Journal of Applied Physics 117 (4), 2015
332015
Towards a highly-controllable synthesis of copper oxide nanowires in radio-frequency reactive plasma: fast saturation at the targeted size
O Baranov, G Filipič, U Cvelbar
Plasma Sources Science and Technology 28 (8), 084002, 2019
322019
Low-pressure planar magnetron discharge for surface deposition and nanofabrication
O Baranov, M Romanov, M Wolter, S Kumar, X Zhong, KK Ostrikov
Physics of plasmas 17 (5), 2010
312010
Towards universal plasma-enabled platform for the advanced nanofabrication: Plasma physics level approach
O Baranov, S Xu, K Ostrikov, BB Wang, U Cvelbar, K Bazaka, I Levchenko
Reviews of Modern Plasma Physics 2, 1-49, 2018
302018
Effect of ion current density on the properties of vacuum arc-deposited TiN coatings
OO Baranov, J Fang, AE Rider, S Kumar, K Ostrikov
IEEE Transactions on Plasma Science 41 (12), 3640-3644, 2013
302013
Current distribution on the substrate in a vacuum arc deposition setup
O Baranov, M Romanov
Plasma Processes and Polymers 5 (3), 256-262, 2008
302008
Uniform surface growth of copper oxide nanowires in radiofrequency plasma discharge and limiting factors
G Filipič, O Baranov, M Mozetič, KK Ostrikov, U Cvelbar
Physics of Plasmas 21 (11), 2014
292014
Tuning and fine morphology control of natural resource-derived vertical graphene
S Alancherry, MV Jacob, K Prasad, J Joseph, O Bazaka, R Neupane, ...
Carbon 159, 668-685, 2020
282020
Single-crystalline metal oxide nanostructures synthesized by plasma-enhanced thermal oxidation
B Guo, M Košiček, J Fu, Y Qu, G Lin, O Baranov, J Zavašnik, Q Cheng, ...
Nanomaterials 9 (10), 1405, 2019
272019
Control of ion density distribution by magnetic traps for plasma electrons
O Baranov, M Romanov, J Fang, U Cvelbar
Journal of Applied Physics 112 (7), 2012
262012
В данный момент система не может выполнить эту операцию. Повторите попытку позднее.
Статьи 1–20