Hydrogen compounds of group-IV nanosheets LC Lew Yan Voon, E Sandberg, RS Aga, AA Farajian Applied Physics Letters 97 (16), 2010 | 365 | 2010 |
Fullerene nanocage capacity for hydrogen storage OV Pupysheva, AA Farajian, BI Yakobson Nano Letters 8 (3), 767-774, 2008 | 300 | 2008 |
Stable geometries and magnetic properties of single-walled carbon nanotubes doped with 3 d transition metals: A first-principles study Y Yagi, TM Briere, MHF Sluiter, V Kumar, AA Farajian, Y Kawazoe Physical Review B 69 (7), 075414, 2004 | 298 | 2004 |
Ab initio simulations of silicene hydrogenation TH Osborn, AA Farajian, OV Pupysheva, RS Aga, LCLY Voon Chemical Physics Letters 511 (1-3), 101-105, 2011 | 189 | 2011 |
Nonlinear coherent transport through doped nanotube junctions AA Farajian, K Esfarjani, Y Kawazoe Physical review letters 82 (25), 5084, 1999 | 164 | 1999 |
Electronic transport through bent carbon nanotubes: nanoelectromechanical sensors and switches AA Farajian, BI Yakobson, H Mizuseki, Y Kawazoe Physical Review B 67 (20), 205423, 2003 | 155 | 2003 |
Electronic and transport properties of NP doped nanotubes K Esfarjani, AA Farajian, Y Hashi, Y Kawazoe Applied Physics Letters 74 (1), 79-81, 1999 | 151 | 1999 |
Cesium encapsulation in single-walled carbon nanotubes via plasma ion irradiation: Application to junction formation and ab initio investigation GH Jeong, AA Farajian, R Hatakeyama, T Hirata, T Yaguchi, K Tohji, ... Physical review B 68 (7), 075410, 2003 | 142 | 2003 |
Spin and band-gap engineering in doped graphene nanoribbons N Gorjizadeh, AA Farajian, K Esfarjani, Y Kawazoe Physical Review B—Condensed Matter and Materials Physics 78 (15), 155427, 2008 | 140 | 2008 |
Stability of lithiated silicene from first principles TH Osborn, AA Farajian The Journal of Physical Chemistry C 116 (43), 22916-22920, 2012 | 103 | 2012 |
The effects of defects on the conductance of graphene nanoribbons N Gorjizadeh, AA Farajian, Y Kawazoe Nanotechnology 20 (1), 015201, 2008 | 87 | 2008 |
Silicene nanoribbons as carbon monoxide nanosensors with molecular resolution TH Osborn, AA Farajian Nano Research 7, 945-952, 2014 | 62 | 2014 |
Field Emission Patterns from First-Principles Electronic Structures:<? format?> Application to Pristine and Cesium-Doped Carbon Nanotubes M Khazaei, AA Farajian, Y Kawazoe Physical review letters 95 (17), 177602, 2005 | 56 | 2005 |
Encapsulation of cesium inside single-walled carbon nanotubes by plasma-ion irradiation method GH Jeong, AA Farajian, T Hirata, R Hatakeyama, K Tohji, TM Briere, ... Thin Solid Films 435 (1-2), 307-311, 2003 | 53 | 2003 |
Ab Initio study of dopant insertion into carbon nanotubes AA Farajian, K Ohno, K Esfarjani, Y Maruyama, Y Kawazoe The Journal of chemical physics 111 (5), 2164-2168, 1999 | 53 | 1999 |
Modeling direct exfoliation of nanoscale graphene platelets OV Pupysheva, AA Farajian, CR Knick, A Zhamu, BZ Jang The Journal of Physical Chemistry C 114 (49), 21083-21087, 2010 | 48 | 2010 |
Theoretical study of phthalocyanine–fullerene complex for a high efficiency photovoltaic device using ab initio electronic structure calculation H Mizuseki, N Igarashi, RV Belosludov, AA Farajian, Y Kawazoe Synthetic metals 138 (1-2), 281-283, 2003 | 47 | 2003 |
Concentration effects of carbon oxides on sensing by graphene nanoribbons: ab initio modeling KK Paulla, AA Farajian The Journal of Physical Chemistry C 117 (24), 12815-12825, 2013 | 40 | 2013 |
A general-purpose approach for calculating transport in contact–molecule–contact systems: TARABORD implementation and application to a polythiophene-based nanodevice AA Farajian, RV Belosludov, H Mizuseki, Y Kawazoe Thin Solid Films 499 (1-2), 269-274, 2006 | 40 | 2006 |
Electronic and mechanical properties of C60-doped nanotubes AA Farajian, M Mikami Journal of Physics: Condensed Matter 13 (35), 8049, 2001 | 35 | 2001 |