| Single crystal nanowire vertical surround-gate field-effect transistor HT Ng, J Han, T Yamada, P Nguyen, YP Chen, M Meyyappan Nano Letters 4 (7), 1247-1252, 2004 | 848 | 2004 |
| Direct integration of metal oxide nanowire in vertical field-effect transistor P Nguyen, HT Ng, T Yamada, MK Smith, J Li, J Han, M Meyyappan Nano Letters 4 (4), 651-657, 2004 | 343 | 2004 |
| Photon-trapping microstructures enable high-speed high-efficiency silicon photodiodes Y Gao, H Cansizoglu, KG Polat, S Ghandiparsi, A Kaya, HH Mamtaz, ... Nature Photonics 11 (5), 301-308, 2017 | 220 | 2017 |
| Electron transport properties of a strained Si layer on a relaxed Si1-xGex substrate by Monte Carlo simulation H Miyata, T Yamada, DK Ferry Applied Physics Letters 62 (21), 2661-2663, 1993 | 130 | 1993 |
| Measurement and analysis of thermopower and electrical conductivity of an indium antimonide nanowire from a vapor-liquid-solid method JH Seol, AL Moore, SK Saha, F Zhou, L Shi, QL Ye, R Scheffler, N Mingo, ... Journal of Applied Physics 101 (2), 023706, 2007 | 127 | 2007 |
| Structural and electrical characterization of carbon nanofibers for interconnect via applications Q Ngo, T Yamada, M Suzuki, Y Ominami, AM Cassell, J Li, M Meyyappan, ... IEEE Transactions on Nanotechnology 6 (6), 688-695, 2007 | 126 | 2007 |
| In-plane transport properties of Si/Si/sub 1-x/Ge/sub x/structure and its FET performance by computer simulation T Yamada, JR Zhou, H Miyata, DK Ferry IEEE Transactions on Electron Devices 41 (9), 1513-1522, 1994 | 95 | 1994 |
| Analysis of submicron carbon nanotube field-effect transistors T Yamada Applied Physics Letters 76 (5), 628-630, 2000 | 92 | 2000 |
| Modeling of carbon nanotube Schottky barrier modulation under oxidizing conditions T Yamada Physical Review B 69 (12), 125408, 2004 | 86 | 2004 |
| Monte Carlo simulation of hole transport in strained Si1− xGex T Yamada, DK Ferry Solid-State Electronics 38 (4), 881-890, 1995 | 74 | 1995 |
| Monte Carlo simulation of hole transport in strained Si< sub>1− x</sub> Ge< sub>x</sub> T Yamada, DK Ferry Solid-State Electronics 38 (4), 881-890, 1995 | 74 | 1995 |
| Metal–nanocarbon contacts P Wilhite, AA Vyas, J Tan, J Tan, T Yamada, P Wang, J Park, CY Yang Semiconductor Science and Technology 29 (5), 054006, 2014 | 72 | 2014 |
| Length dependence of current-induced breakdown in carbon nanofiber interconnects H Kitsuki, T Yamada, D Fabris, JR Jameson, P Wilhite, M Suzuki, ... Applied Physics Letters 92 (17), 173110, 2008 | 68 | 2008 |
| Surface-illuminated photon-trapping high-speed Ge-on-Si photodiodes with improved efficiency up to 1700 nm H Cansizoglu, C Bartolo-Perez, Y Gao, EP Devine, S Ghandiparsi, ... Photonics Research 6 (7), 734-742, 2018 | 67 | 2018 |
| Improved contact for thermal and electrical transport in carbon nanofiber interconnects T Saito, T Yamada, D Fabris, H Kitsuki, P Wilhite, M Suzuki, CY Yang Applied Physics Letters 93 (10), 102108, 2008 | 59 | 2008 |
| Competing classical and quantum effects in shape relaxation of a metallic island H Okamoto, D Chen, T Yamada Physical Review Letters 89 (25), 256101, 2002 | 58 | 2002 |
| Equivalent circuit model for carbon nanotube Schottky barrier: Influence of neutral polarized gas molecules T Yamada Applied Physics Letters 88 (8), 083106, 2006 | 56 | 2006 |
| Contact resistance in carbon nanostructure via interconnects W Wu, S Krishnan, T Yamada, X Sun, P Wilhite, R Wu, K Li, CY Yang Applied Physics Letters 94 (16), 163113, 2009 | 49 | 2009 |
| Electrothermal analysis of breakdown in carbon nanofiber interconnects T Yamada, T Saito, D Fabris, CY Yang IEEE Electron Device Letters 30 (5), 469-471, 2009 | 45 | 2009 |
| High-field electron transport in quantum wires studied by solution of the Boltzmann equation T Yamada, J Sone Physical Review B 40 (9), 6265-6271, 1989 | 42 | 1989 |
