Gary Friedman
Gary Friedman
Professor of Electrical and Computer Engineering, Drexel University
Verified email at
Cited by
Cited by
Applied plasma medicine
G Fridman, G Friedman, A Gutsol, AB Shekhter, VN Vasilets, A Fridman
Plasma processes and polymers 5 (6), 503-533, 2008
Physical and biological mechanisms of direct plasma interaction with living tissue
D Dobrynin, G Fridman, G Friedman, A Fridman
New Journal of Physics 11 (11), 115020, 2009
Blood coagulation and living tissue sterilization by floating-electrode dielectric barrier discharge in air
G Fridman, M Peddinghaus, M Balasubramanian, H Ayan, A Fridman, ...
Plasma Chemistry and plasma processing 26, 425-442, 2006
Floating electrode dielectric barrier discharge plasma in air promoting apoptotic behavior in melanoma skin cancer cell lines
G Fridman, A Shereshevsky, MM Jost, AD Brooks, A Fridman, A Gutsol, ...
Plasma Chemistry and Plasma Processing 27, 163-176, 2007
Comparison of direct and indirect effects of non‐thermal atmospheric‐pressure plasma on bacteria
G Fridman, AD Brooks, M Balasubramanian, A Fridman, A Gutsol, ...
Plasma Processes and Polymers 4 (4), 370-375, 2007
Effects of non-thermal plasma on mammalian cells
S Kalghatgi, CM Kelly, E Cerchar, B Torabi, O Alekseev, A Fridman, ...
PloS one 6 (1), e16270, 2011
Beyond Ti3C2Tx: MXenes for Electromagnetic Interference Shielding
M Han, CE Shuck, R Rakhmanov, D Parchment, B Anasori, CM Koo, ...
ACS nano 14 (4), 5008-5016, 2020
Nonthermal Dielectric-Barrier Discharge Plasma-Induced Inactivation Involves Oxidative DNA Damage and Membrane Lipid Peroxidation in Escherichia coli
SG Joshi, M Cooper, A Yost, M Paff, UK Ercan, G Fridman, G Friedman, ...
Antimicrobial agents and chemotherapy 55 (3), 1053-1062, 2011
Carbon nanotubes loaded with magnetic particles
G Korneva, H Ye, Y Gogotsi, D Halverson, G Friedman, JC Bradley, ...
Nano letters 5 (5), 879-884, 2005
Mechanism of blood coagulation by nonthermal atmospheric pressure dielectric barrier discharge plasma
SU Kalghatgi, G Fridman, M Cooper, G Nagaraj, M Peddinghaus, ...
IEEE Transactions on plasma science 35 (5), 1559-1566, 2007
Gas plasma: medical uses and developments in wound care
G Lloyd, G Friedman, S Jafri, G Schultz, A Fridman, K Harding
Plasma Processes and Polymers 7 (3‐4), 194-211, 2010
Endothelial cell proliferation is enhanced by low dose non-thermal plasma through fibroblast growth factor-2 release
S Kalghatgi, G Friedman, A Fridman, AM Clyne
Annals of biomedical engineering 38, 748-757, 2010
Synthesis and utilization of monodisperse superparamagnetic colloidal particles for magnetically controllable photonic crystals
X Xu, G Friedman, KD Humfeld, SA Majetich, SA Asher
Chemistry of Materials 14 (3), 1249-1256, 2002
Generalized Preisach model of hysteresis
ID Mayergoyz, G Friedman
IEEE transactions on Magnetics 24 (1), 212-217, 1988
High field gradient targeting of magnetic nanoparticle-loaded endothelial cells to the surfaces of steel stents
B Polyak, I Fishbein, M Chorny, I Alferiev, D Williams, B Yellen, ...
Proceedings of the National Academy of Sciences 105 (2), 698-703, 2008
Plasma medicine
AA Fridman, GG Friedman
John Wiley & Sons, 2013
Magnetic targeting for site-specific drug delivery: applications and clinical potential
B Polyak, G Friedman
Expert opinion on drug delivery 6 (1), 53-70, 2009
Superparamagnetic photonic crystals
X Xu, G Friedman, KD Humfeld, SA Majetich, SA Asher
Advanced materials 13 (22), 1681-1684, 2001
Multifunctional carbon-nanotube cellular endoscopes
R Singhal, Z Orynbayeva, RV Kalyana Sundaram, JJ Niu, ...
Nature nanotechnology 6 (1), 57-64, 2011
Arranging matter by magnetic nanoparticle assemblers
BB Yellen, O Hovorka, G Friedman
Proceedings of the national academy of sciences 102 (25), 8860-8864, 2005
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