| Origin of the relatively low transport mobility of graphene grown through chemical vapor deposition HS Song, SL Li, H Miyazaki, S Sato, K Hayashi, A Yamada, N Yokoyama, ... Scientific reports 2, 337, 2012 | 246 | 2012 |
| Electrical properties of carbon nanotube bundles for future via interconnects M Nihei, A Kawabata, D Kondo, M Horibe, S Sato, Y Awano Japanese journal of applied physics 44 (4R), 1626, 2005 | 214 | 2005 |
| Self-organization of novel carbon composite structure: graphene multi-layers combined perpendicularly with aligned carbon nanotubes D Kondo, S Sato, Y Awano Applied physics express 1 (7), 074003, 2008 | 194 | 2008 |
| Low-temperature synthesis of graphene and fabrication of top-gated field effect transistors without using transfer processes D Kondo, S Sato, K Yagi, N Harada, M Sato, M Nihei, N Yokoyama Applied physics express 3 (2), 025102, 2010 | 155 | 2010 |
| Low-temperature synthesis of graphene and fabrication of top-gated field effect transistors without using transfer processes D Kondo, S Sato, K Yagi, N Harada, M Sato, M Nihei, N Yokoyama Applied physics express 3 (2), 025102, 2010 | 155 | 2010 |
| Low-resistance multi-walled carbon nanotube vias with parallel channel conduction of inner shells [IC interconnect applications] M Nihei, D Kondo, A Kawabata, S Sato, H Shioya, M Sakaue, T Iwai, ... Proceedings of the IEEE 2005 International Interconnect Technology …, 2005 | 141 | 2005 |
| Low temperature grown carbon nanotube interconnects using inner shells by chemical mechanical polishing D Yokoyama, T Iwasaki, T Yoshida, H Kawarada, S Sato, T Hyakushima, ... Applied Physics Letters 91 (26), 263101, 2007 | 128 | 2007 |
| A polarity-controllable graphene inverter N Harada, K Yagi, S Sato, N Yokoyama Applied Physics Letters 96 (1), 012102, 2010 | 127 | 2010 |
| Carbon nanotubes for VLSI: interconnect and transistor applications Y Awano, S Sato, M Nihei, T Sakai, Y Ohno, T Mizutani Proceedings of the IEEE 98 (12), 2015-2031, 2010 | 121 | 2010 |
| Growth of diameter-controlled carbon nanotubes using monodisperse nickel nanoparticles obtained with a differential mobility analyzer S Sato, A Kawabata, M Nihei, Y Awano Chemical physics letters 382 (3-4), 361-366, 2003 | 107 | 2003 |
| Conduction tuning of graphene based on defect-induced localization S Nakaharai, T Iijima, S Ogawa, S Suzuki, SL Li, K Tsukagoshi, S Sato, ... ACS nano 7 (7), 5694-5700, 2013 | 105 | 2013 |
| Novel approach to fabricating carbon nanotube via interconnects using size-controlled catalyst nanoparticles S Sato, M Nihei, A Mimura, A Kawabata, D Kondo, H Shioya, T Iwai, ... 2006 international interconnect technology conference, 230-232, 2006 | 104 | 2006 |
| Electrical properties of carbon nanotubes grown at a low temperature for use as interconnects D Yokoyama, T Iwasaki, K Ishimaru, S Sato, T Hyakushima, M Nihei, ... Japanese Journal of Applied Physics 47 (4R), 1985, 2008 | 97 | 2008 |
| Carbon nanotube via interconnect technologies: size‐classified catalyst nanoparticles and low‐resistance ohmic contact formation Y Awano, S Sato, D Kondo, M Ohfuti, A Kawabata, M Nihei, N Yokoyama physica status solidi (a) 203 (14), 3611-3616, 2006 | 91 | 2006 |
| Carbon nanotube growth from titanium–cobalt bimetallic particles as a catalyst S Sato, A Kawabata, D Kondo, M Nihei, Y Awano Chemical Physics Letters 402 (1-3), 149-154, 2005 | 86 | 2005 |
| Low-temperature synthesis of single-walled carbon nanotubes with a narrow diameter distribution using size-classified catalyst nanoparticles D Kondo, S Sato, Y Awano Chemical physics letters 422 (4-6), 481-487, 2006 | 82 | 2006 |
| Synthesis of a closely packed carbon nanotube forest by a multi-step growth method using plasma-based chemical vapor deposition Y Yamazaki, M Katagiri, N Sakuma, M Suzuki, S Sato, M Nihei, M Wada, ... Applied physics express 3 (5), 055002, 2010 | 81 | 2010 |
| Selective graphene formation on copper twin crystals K Hayashi, S Sato, M Ikeda, C Kaneta, N Yokoyama Journal of the American Chemical Society 134 (30), 12492-12498, 2012 | 77 | 2012 |
| Small bandgap in atomically precise 17-atom-wide armchair-edged graphene nanoribbons J Yamaguchi, H Hayashi, H Jippo, A Shiotari, M Ohtomo, M Sakakura, ... Communications Materials 1 (1), 1-9, 2020 | 76 | 2020 |
| Graphene for nanoelectronics S Sato Japanese Journal of Applied Physics 54 (4), 040102, 2015 | 74 | 2015 |
