Michael Keidar
Michael Keidar
A. James Clark Professor of Engineering, the George Washington University
Dirección de correo verificada de email.gwu.edu - Página principal
Citado por
Citado por
Cold plasma selectivity and the possibility of a paradigm shift in cancer therapy
M Keidar, R Walk, A Shashurin, P Srinivasan, A Sandler, S Dasgupta, ...
British journal of cancer 105 (9), 1295-1301, 2011
Cold atmospheric plasma in cancer therapy
M Keidar, A Shashurin, O Volotskova, M Ann Stepp, P Srinivasan, ...
Physics of Plasmas 20 (5), 057101, 2013
Living tissue under treatment of cold plasma atmospheric jet
A Shashurin, M Keidar, S Bronnikov, RA Jurjus, MA Stepp
Applied Physics Letters 93 (18), 181501, 2008
Plasma for cancer treatment
M Keidar
Plasma Sources Science and Technology 24 (3), 033001, 2015
Plasma flow and plasma–wall transition in Hall thruster channel
M Keidar, ID Boyd, II Beilis
Physics of Plasmas 8 (12), 5315-5322, 2001
Cold atmospheric plasma, a novel promising anti-cancer treatment modality
D Yan, JH Sherman, M Keidar
Oncotarget 8 (9), 15977, 2017
Targeting the cancer cell cycle by cold atmospheric plasma
O Volotskova, TS Hawley, MA Stepp, M Keidar
Scientific reports 2, 636, 2012
Recent progress in filtered vacuum arc deposition
RL Boxman, V Zhitomirsky, B Alterkop, E Gidalevich, I Beilis, M Keidar, ...
Surface and Coatings Technology 86, 243-253, 1996
2D expansion of the low-density interelectrode vacuum arc plasma jet in an axial magnetic field
M Keidar, I Beilis, RL Boxman, S Goldsmith
Journal of Physics D: Applied Physics 29 (7), 1973, 1996
Cold atmospheric plasma for selectively ablating metastatic breast cancer cells
M Wang, B Holmes, X Cheng, W Zhu, M Keidar, LG Zhang
PloS one 8 (9), e73741, 2013
Electron-wall interaction in Hall thrusters
Y Raitses, D Staack, M Keidar, NJ Fisch
Physics of Plasmas 12 (5), 057104, 2005
Principles of using cold atmospheric plasma stimulated media for cancer treatment
D Yan, A Talbot, N Nourmohammadi, X Cheng, J Canady, J Sherman, ...
Scientific reports 5, 18339, 2015
Anti‐cancer therapies of 21st century: novel approach to treat human cancers using cold atmospheric plasma
EA Ratovitski, X Cheng, D Yan, JH Sherman, J Canady, B Trink, M Keidar
Plasma Processes and Polymers 11 (12), 1128-1137, 2014
The effect of tuning cold plasma composition on glioblastoma cell viability
X Cheng, J Sherman, W Murphy, E Ratovitski, J Canady, M Keidar
PloS one 9 (5), e98652, 2014
Electromagnetic reduction of plasma density during atmospheric reentry and hypersonic flights
M Keidar, M Kim, ID Boyd
Journal of Spacecraft and Rockets 45 (3), 445-453, 2008
Space micropropulsion systems for Cubesats and small satellites: from proximate targets to furthermost frontiers
I Levchenko, K Bazaka, Y Ding, Y Raitses, S Mazouffre, T Henning, ...
Applied Physics Reviews 5 (1), 011104, 2018
Increasing the length of single-wall carbon nanotubes in a magnetically enhanced arc discharge
M Keidar, I Levchenko, T Arbel, M Alexander, AM Waas, K Ostrikov
Applied Physics Letters 92 (4), 043129, 2008
Cold atmospheric plasma treatment selectively targets head and neck squamous cell carcinoma cells
R Guerrero-Preston, T Ogawa, M Uemura, G Shumulinsky, BL Valle, ...
International journal of molecular medicine 34 (4), 941-946, 2014
Theoretical study of plasma expansion in a magnetic field in a disk anode vacuum arc
II Beilis, M Keidar, RL Boxman, S Goldsmith
Journal of applied physics 83 (2), 709-717, 1998
Factors affecting synthesis of single wall carbon nanotubes in arc discharge
M Keidar
Journal of Physics D: Applied Physics 40 (8), 2388, 2007
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