Scaling during shadowing growth of isolated nanocolumns T Karabacak, JP Singh, YP Zhao, GC Wang, TM Lu Physical Review B 68 (12), 125408, 2003 | 234 | 2003 |
Physical self-assembly and the nucleation of three-dimensional nanostructures by oblique angle deposition T Karabacak, GC Wang, TM Lu Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 22 (4 …, 2004 | 161 | 2004 |
Thin-film growth dynamics with shadowing and re-emission effects T Karabacak Journal of Nanophotonics 5 (1), 052501-052501-18, 2011 | 152 | 2011 |
β-phase tungsten nanorod formation by oblique-angle sputter deposition T Karabacak, A Mallikarjunan, JP Singh, D Ye, GC Wang, TM Lu Applied physics letters 83 (15), 3096-3098, 2003 | 151 | 2003 |
Growth-front roughening in amorphous silicon films by sputtering T Karabacak, YP Zhao, GC Wang, TM Lu Physical Review B 64 (8), 085323, 2001 | 142 | 2001 |
Controlled formation of metallic nanoballs during plasma electrolysis Y Toriyabe, S Watanabe, S Yatsu, T Shibayama, T Mizuno Applied physics letters 91 (4), 2007 | 127 | 2007 |
Mound formation in surface growth under shadowing M Pelliccione, T Karabacak, C Gaire, GC Wang, TM Lu Physical Review B—Condensed Matter and Materials Physics 74 (12), 125420, 2006 | 124 | 2006 |
Uniform Si nanostructures grown by oblique angle deposition with substrate swing rotation DX Ye, T Karabacak, RC Picu, GC Wang, TM Lu Nanotechnology 16 (9), 1717, 2005 | 120 | 2005 |
Quasi-periodic nanostructures grown by oblique angle deposition T Karabacak, GC Wang, TM Lu Journal of applied physics 94 (12), 7723-7728, 2003 | 116 | 2003 |
Low temperature melting of copper nanorod arrays T Karabacak, JS DeLuca, PI Wang, GA Ten Eyck, D Ye, GC Wang, TM Lu Journal of applied physics 99 (6), 2006 | 112 | 2006 |
Metal oxide nanostructures by a simple hot water treatment NS Saadi, LB Hassan, T Karabacak Scientific reports 7 (1), 7158, 2017 | 96 | 2017 |
Stress reduction in tungsten films using nanostructured compliant layers T Karabacak, CR Picu, J Senkevich, GC Wang, TM Lu Journal of Applied Physics 96 (10), 5740-5746, 2004 | 95 | 2004 |
Oxygen reduction reaction electrocatalytic activity of glancing angle deposited platinum nanorod arrays WJ Khudhayer, NN Kariuki, X Wang, DJ Myers, AU Shaikh, T Karabacak Journal of The Electrochemical Society 158 (8), B1029, 2011 | 94 | 2011 |
High optical absorption of indium sulfide nanorod arrays formed by glancing angle deposition MF Cansizoglu, R Engelken, HW Seo, T Karabacak Acs Nano 4 (2), 733-740, 2010 | 86 | 2010 |
Enhanced step coverage by oblique angle physical vapor deposition T Karabacak, TM Lu Journal of applied physics 97 (12), 2005 | 86 | 2005 |
Superamphiphobic aluminum alloy surfaces with micro and nanoscale hierarchical roughness produced by a simple and environmentally friendly technique ZS Saifaldeen, KR Khedir, MF Cansizoglu, T Demirkan, T Karabacak Journal of Materials Science 49, 1839-1853, 2014 | 85 | 2014 |
Breakdown of dynamic scaling in surface growth under shadowing M Pelliccione, T Karabacak, TM Lu Physical review letters 96 (14), 146105, 2006 | 83 | 2006 |
Glad Pt–Ni alloy nanorods for oxygen reduction reaction NN Kariuki, WJ Khudhayer, T Karabacak, DJ Myers Acs Catalysis 3 (12), 3123-3132, 2013 | 82 | 2013 |
Growth of uniformly aligned nanorod arrays by oblique angle deposition with two-phase substrate rotation DX Ye, T Karabacak, BK Lim, GC Wang, TM Lu Nanotechnology 15 (7), 817, 2004 | 81 | 2004 |
Glancing angle sputter deposited nanostructures on rotating substrates: Experiments and simulations C Patzig, T Karabacak, B Fuhrmann, B Rauschenbach Journal of Applied Physics 104 (9), 2008 | 80 | 2008 |