Diameter-controlled carbon nanotubes grown from lithographically defined nanoparticles M Ishida, H Hongo, F Nihey, Y Ochiai Japanese journal of applied physics 43 (10B), L1356, 2004 | 102 | 2004 |
Chemical vapor deposition of single-wall carbon nanotubes on iron-film-coated sapphire substrates H Hongo, M Yudasaka, T Ichihashi, F Nihey, S Iijima Chemical physics letters 361 (3-4), 349-354, 2002 | 95 | 2002 |
Carbon-nanotube field-effect transistors with very high intrinsic transconductance F Nihey, H Hongo, Y Ochiai, M Yudasaka, S Iijima Japanese journal of applied physics 42 (10B), L1288, 2003 | 70 | 2003 |
Support materials based on converted aluminum films for chemical vapor deposition growth of single-wall carbon nanotubes H Hongo, F Nihey, T Ichihashi, Y Ochiai, M Yudasaka, S Iijima Chemical physics letters 380 (1-2), 158-164, 2003 | 68 | 2003 |
A top-gate carbon-nanotube field-effect transistor with a titanium-dioxide insulator F Nihey, H Hongo, M Yudasaka, S Iijima Japanese journal of applied physics 41 (10A), L1049, 2002 | 59 | 2002 |
Transport properties of single-wall carbon nanotubes with encapsulated C60 H Hongo, F Nihey, M Yudasaka, T Ichihashi, S Iijima Physica B: Condensed Matter 323 (1-4), 244-245, 2002 | 24 | 2002 |
Horizontally directional single-wall carbon nanotubes grown by chemical vapor deposition with a local electric field H Hongo, F Nihey, Y Ochiai Journal of applied physics 101 (2), 2007 | 23 | 2007 |
Relationship between carbon nanotube density and hysteresis characteristics of carbon nanotube random network-channel field effect transistors H Hongo, F Nihey, S Yorozu Journal of applied physics 107 (9), 2010 | 16 | 2010 |
A 40-nm-pitch double-slit experiment of hot electrons in a semiconductor under a magnetic field H Hongo, Y Miyamoto, K Furuya, M Suhara Applied physics letters 70 (1), 93-95, 1997 | 16 | 1997 |
Method for preparing monolayer carbon nanotube S Iijima, M Yudasaka, H Hongo US Patent App. 10/509,575, 2005 | 14 | 2005 |
Catalyst support substrate, method for growing carbon nanotubes using the same, and the transistor using carbon nanotubes H Hongo US Patent 7,582,507, 2009 | 13 | 2009 |
High‐frequency performance of multiple‐channel carbon nanotube transistors K Narita, H Hongo, M Ishida, F Nihey physica status solidi (a) 204 (6), 1808-1813, 2007 | 13 | 2007 |
Charging and discharging method for lithium ion secondary batteries and charging and discharging system for the same H Hongo, K Kudo, H Sakuma, R Kuribayashi | 12 | 2014 |
Method of manufacturing a semiconductor device T Sakamoto, H Kawaura, T Baba, F Nihey, Y Ochiai, H Hongo US Patent App. 12/406,487, 2009 | 12 | 2009 |
Electric power control system and method H Sakuma, K Kudo, H Hongo, R Kuribayashi US Patent 9,379,549, 2016 | 11 | 2016 |
Method for fixing metal particles and method for manufacturing substrate containing metal particles, method for manufacturing substrate containing carbon nanotube, and method … M Ishida, H Hongo, JI Fujita US Patent 7,658,798, 2010 | 10 | 2010 |
Influence of a finite energy width on the hot electron double-slit interference experiment: A design of the emitter structure H Hongo, Y Miyamoto, M Gault, K Furuya Journal of applied physics 82 (8), 3846-3852, 1997 | 9 | 1997 |
Electric power measurement system, electric power measurement method, and information processing device K Kudo, Y Morioka, H Hongo, H Sakuma US Patent 9,513,141, 2016 | 8 | 2016 |
25 nm pitch GaInAs/InP buried structure: Improvement by calixarene as an electron beam resist and tertiarybutylphosphine as a P source in organometallic vapor phase epitaxy … Y Miyamoto, A Kokubo, T Hattori, H Hongo, M Suhara, K Furuya Journal of Vacuum Science & Technology B: Microelectronics and Nanometer …, 1998 | 8 | 1998 |
Battery state estimation device, battery state management system, battery, battery state estimation method, and non-transitory storage medium H Hongo US Patent 10,073,147, 2018 | 7 | 2018 |