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 | 717 | 2002 |
Tunable graphene–silicon heterojunctions for ultrasensitive photodetection X An, F Liu, YJ Jung, S Kar Nano letters 13 (3), 909-916, 2013 | 677 | 2013 |
Aligned carbon nanotube− polymer hybrid architectures for diverse flexible electronic applications YJ Jung, S Kar, S Talapatra, C Soldano, G Viswanathan, X Li, Z Yao, ... Nano letters 6 (3), 413-418, 2006 | 419 | 2006 |
Role of transition metal catalysts in single-walled carbon nanotube growth in chemical vapor deposition Y Homma, Y Kobayashi, T Ogino, D Takagi, R Ito, YJ Jung, PM Ajayan The Journal of Physical Chemistry B 107 (44), 12161-12164, 2003 | 323 | 2003 |
Mechanism of Selective Growth of Carbon Nanotubes on SiO2/Si Patterns YJ Jung, Wei, R Vajtai, PM Ajayan, Y Homma, K Prabhakaran, T Ogino Nano Letters 3 (4), 561-564, 2003 | 257 | 2003 |
Transparent, flexible supercapacitors from nano-engineered carbon films HY Jung, MB Karimi, MG Hahm, PM Ajayan, YJ Jung Scientific reports 2 (1), 773, 2012 | 235 | 2012 |
A facile route for 3D aerogels from nanostructured 1D and 2D materials SM Jung, HY Jung, MS Dresselhaus, YJ Jung, J Kong Scientific reports 2 (1), 849, 2012 | 230 | 2012 |
Directed assembly of highly-organized carbon nanotube architectures PM Ajayan, R Ganapathiraman, A Cao US Patent 7,189,430, 2007 | 223 | 2007 |
Controlled fabrication of hierarchically branched nanopores, nanotubes, and nanowires G Meng, YJ Jung, A Cao, R Vajtai, PM Ajayan Proceedings of the National Academy of Sciences 102 (20), 7074-7078, 2005 | 194 | 2005 |
Carbon nanotube–nanocup hybrid structures for high power supercapacitor applications MG Hahm, A Leela Mohana Reddy, DP Cole, M Rivera, JA Vento, J Nam, ... Nano letters 12 (11), 5616-5621, 2012 | 188 | 2012 |
Bottom-up growth of carbon nanotube multilayers: unprecedented growth X Li, A Cao, YJ Jung, R Vajtai, PM Ajayan Nano letters 5 (10), 1997-2000, 2005 | 179 | 2005 |
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 |
Density control of single-walled carbon nanotubes using patterned iron nanoparticle catalysts derived from phase-separated thin films of a polyferrocene block copolymer S Lastella, YJ Jung, H Yang, R Vajtai, PM Ajayan, CY Ryu, DA Rider, ... Journal of Materials Chemistry 14 (12), 1791-1794, 2004 | 137 | 2004 |
Building highly organized single‐walled‐carbon‐nanotube networks using template‐guided fluidic assembly X Xiong, L Jaberansari, MG Hahm, A Busnaina, YJ Jung Small 3 (12), 2006-2010, 2007 | 100 | 2007 |
High-density, large-area single-walled carbon nanotube networks on nanoscale patterned substrates YJ Jung, Y Homma, T Ogino, Y Kobayashi, D Takagi, B Wei, R Vajtai, ... The Journal of Physical Chemistry B 107 (28), 6859-6864, 2003 | 99 | 2003 |
A general synthetic approach to interconnected nanowire/nanotube and nanotube/nanowire/nanotube heterojunctions with branched topology G Meng, F Han, X Zhao, B Chen, D Yang, J Liu, Q Xu, M Kong, X Zhu, ... Angew. Chem. Int. Ed 48 (39), 7166-7170, 2009 | 94 | 2009 |
Building carbon nanotubes and their smart architectures R Vajtai, BQ Wei, ZJ Zhang, Y Jung, G Ramanath, PM Ajayan Smart materials and structures 11 (5), 691-698, 2002 | 87 | 2002 |
Highly aligned scalable platinum-decorated single-wall carbon nanotube arrays for nanoscale electrical interconnects YL Kim, B Li, X An, MG Hahm, L Chen, M Washington, PM Ajayan, ... ACS nano 3 (9), 2818-2826, 2009 | 85 | 2009 |
Voltage-switchable photocurrents in single-walled carbon nanotube–silicon junctions for analog and digital optoelectronics YL Kim, HY Jung, S Park, B Li, F Liu, J Hao, YK Kwon, YJ Jung, S Kar Nature Photonics 8 (3), 239-243, 2014 | 84 | 2014 |
Ordered Ni nanowire tip arrays sticking out of the anodic aluminum oxide template G Meng, A Cao, JY Cheng, A Vijayaraghavan, YJ Jung, M Shima, ... Journal of applied physics 97 (6), 2005 | 79 | 2005 |