Size-dependent melting properties of small tin particles: nanocalorimetric measurements SL Lai, JY Guo, V Petrova, G Ramanath, LH Allen Physical review letters 77 (1), 99, 1996 | 1155 | 1996 |
Organized assembly of carbon nanotubes BQ Wei, R Vajtai, Y Jung, J Ward, R Zhang, G Ramanath, PM Ajayan Nature 416 (6880), 495-496, 2002 | 713 | 2002 |
A new class of doped nanobulk high-figure-of-merit thermoelectrics by scalable bottom-up assembly RJ Mehta, Y Zhang, C Karthik, B Singh, RW Siegel, T Borca-Tasciuc, ... Nature materials 11 (3), 233-240, 2012 | 589 | 2012 |
Al-doped zinc oxide nanocomposites with enhanced thermoelectric properties P Jood, RJ Mehta, Y Zhang, G Peleckis, X Wang, RW Siegel, ... Nano letters 11 (10), 4337-4342, 2011 | 525 | 2011 |
Nanotubes in a flash--ignition and reconstruction PM Ajayan, M Terrones, A De la Guardia, V Huc, N Grobert, BQ Wei, ... Science 296 (5568), 705-705, 2002 | 440 | 2002 |
Thickness dependent electrical resistivity of ultrathin (< 40 nm) Cu films HD Liu, YP Zhao, G Ramanath, SP Murarka, GC Wang Thin Solid Films 384 (1), 151-156, 2001 | 327 | 2001 |
Irradiation-induced magnetism in carbon nanostructures S Talapatra, PG Ganesan, T Kim, R Vajtai, M Huang, M Shima, ... Physical Review Letters 95 (9), 097201, 2005 | 296 | 2005 |
Bonding-induced thermal conductance enhancement at inorganic heterointerfaces using nanomolecular monolayers PJ O’Brien, S Shenogin, J Liu, PK Chow, D Laurencin, PH Mutin, ... Nature materials 12 (2), 118-122, 2013 | 286 | 2013 |
Substrate-site selective growth of aligned carbon nanotubes ZJ Zhang, BQ Wei, G Ramanath, PM Ajayan Applied Physics Letters 77 (23), 3764-3766, 2000 | 277 | 2000 |
Hydrophobic anchoring of monolayer-protected gold nanoclusters to carbon nanotubes AV Ellis, K Vijayamohanan, R Goswami, N Chakrapani, LS Ramanathan, ... Nano Letters 3 (3), 279-282, 2003 | 269 | 2003 |
Effect of nanoparticles on sessile droplet contact angle S Vafaei, T Borca-Tasciuc, MZ Podowski, A Purkayastha, G Ramanath, ... Nanotechnology 17 (10), 2523, 2006 | 262 | 2006 |
The effect of nanoparticles on the liquid–gas surface tension of Bi2Te3 nanofluids S Vafaei, A Purkayastha, A Jain, G Ramanath, T Borca-Tasciuc Nanotechnology 20 (18), 185702, 2009 | 224 | 2009 |
Directed assembly of highly-organized carbon nanotube architectures PM Ajayan, R Ganapathiraman, A Cao US Patent 7,189,430, 2007 | 223 | 2007 |
Microwave-assisted single-step functionalization and in situ derivatization of carbon nanotubes with gold nanoparticles MS Raghuveer, S Agrawal, N Bishop, G Ramanath Chemistry of materials 18 (6), 1390-1393, 2006 | 196 | 2006 |
High‐speed (104 °C/s) scanning microcalorimetry with monolayer sensitivity (J/m2) SL Lai, G Ramanath, LH Allen, P Infante, Z Ma Applied physics letters 67 (9), 1229-1231, 1995 | 186 | 1995 |
Assembly of highly organized carbon nanotube architectures by chemical vapor deposition BQ Wei, R Vajtai, Y Jung, J Ward, R Zhang, G Ramanath, PM Ajayan Chemistry of Materials 15 (8), 1598-1606, 2003 | 164 | 2003 |
Annealing-induced interfacial toughening using a molecular nanolayer DD Gandhi, M Lane, Y Zhou, AP Singh, S Nayak, U Tisch, M Eizenberg, ... Nature 447 (7142), 299-302, 2007 | 161 | 2007 |
Self-assembled near-zero-thickness molecular layers as diffusion barriers for Cu metallization A Krishnamoorthy, K Chanda, SP Murarka, G Ramanath, JG Ryan Applied Physics Letters 78 (17), 2467-2469, 2001 | 148 | 2001 |
Self-assembled subnanolayers as interfacial adhesion enhancers and diffusion barriers for integrated circuits G Ramanath, G Cui, PG Ganesan, X Guo, AV Ellis, M Stukowski, ... Applied Physics Letters 83 (2), 383-385, 2003 | 140 | 2003 |
Tailoring structure and electrical properties of carbon nanotubes using kilo-electron-volt ions BQ Wei, J D’Arcy-Gall, PM Ajayan, G Ramanath Applied Physics Letters 83 (17), 3581-3583, 2003 | 132 | 2003 |