Orientation and purification of carbon nanotubes using ac electrophoresis K Yamamoto, S Akita, Y Nakayama Journal of physics D: Applied physics 31 (8), L34, 1998 | 590 | 1998 |
Wearable, human‐interactive, health‐monitoring, wireless devices fabricated by macroscale printing techniques W Honda, S Harada, T Arie, S Akita, K Takei Advanced Functional Materials 24 (22), 3299-3304, 2014 | 493 | 2014 |
Carbon-nanotube tips for scanning probe microscopy: Preparation by a controlled process and observation of deoxyribonucleic acid H Nishijima, S Kamo, S Akita, Y Nakayama, KI Hohmura, SH Yoshimura, ... Applied Physics Letters 74 (26), 4061-4063, 1999 | 446 | 1999 |
Toward flexible and wearable human‐interactive health‐monitoring devices K Takei, W Honda, S Harada, T Arie, S Akita Advanced healthcare materials 4 (4), 487-500, 2015 | 380 | 2015 |
Fully printed flexible fingerprint-like three-axis tactile and slip force and temperature sensors for artificial skin S Harada, K Kanao, Y Yamamoto, T Arie, S Akita, K Takei ACS nano 8 (12), 12851-12857, 2014 | 369 | 2014 |
Wearable, flexible, and multifunctional healthcare device with an ISFET chemical sensor for simultaneous sweat pH and skin temperature monitoring S Nakata, T Arie, S Akita, K Takei ACS sensors 2 (3), 443-448, 2017 | 351 | 2017 |
Fully printed, highly sensitive multifunctional artificial electronic whisker arrays integrated with strain and temperature sensors S Harada, W Honda, T Arie, S Akita, K Takei ACS nano 8 (4), 3921-3927, 2014 | 351 | 2014 |
Printed multifunctional flexible device with an integrated motion sensor for health care monitoring Y Yamamoto, S Harada, D Yamamoto, W Honda, T Arie, S Akita, K Takei Science advances 2 (11), e1601473, 2016 | 349 | 2016 |
Nanotweezers consisting of carbon nanotubes operating in an atomic force microscope S Akita, Y Nakayama, S Mizooka, Y Takano, T Okawa, Y Miyatake, ... Applied Physics Letters 79 (11), 1691-1693, 2001 | 348 | 2001 |
Efficient skin temperature sensor and stable gel‐less sticky ECG sensor for a wearable flexible healthcare patch Y Yamamoto, D Yamamoto, M Takada, H Naito, T Arie, S Akita, K Takei Advanced healthcare materials 6 (17), 1700495, 2017 | 280 | 2017 |
Carbon nanotube tips for a scanning probe microscope: their fabrication and properties S Akita, H Nishijima, Y Nakayama, F Tokumasu, K Takeyasu Journal of Physics D: Applied Physics 32 (9), 1044, 1999 | 280 | 1999 |
Orientation of carbon nanotubes using electrophoresis KYK Yamamoto, SAS Akita, YNY Nakayama Japanese Journal of Applied Physics 35 (7B), L917, 1996 | 273 | 1996 |
A wearable pH sensor with high sensitivity based on a flexible charge-coupled device S Nakata, M Shiomi, Y Fujita, T Arie, S Akita, K Takei Nature Electronics 1 (11), 596-603, 2018 | 212 | 2018 |
Multimodal plant healthcare flexible sensor system Y Lu, K Xu, L Zhang, M Deguchi, H Shishido, T Arie, R Pan, A Hayashi, ... ACS nano 14 (9), 10966-10975, 2020 | 192 | 2020 |
A wearable body condition sensor system with wireless feedback alarm functions K Xu, Y Fujita, Y Lu, S Honda, M Shiomi, T Arie, S Akita, K Takei Advanced Materials 33 (18), 2008701, 2021 | 165 | 2021 |
Highly selective flexible tactile strain and temperature sensors against substrate bending for an artificial skin K Kanao, S Harada, Y Yamamoto, W Honda, T Arie, S Akita, K Takei Rsc Advances 5 (38), 30170-30174, 2015 | 163 | 2015 |
Highly stable kirigami-structured stretchable strain sensors for perdurable wearable electronics K Xu, Y Lu, S Honda, T Arie, S Akita, K Takei Journal of Materials Chemistry C 7 (31), 9609-9617, 2019 | 152 | 2019 |
Carbon nanotube oscillators toward zeptogram detection M Nishio, S Sawaya, S Akita, Y Nakayama Applied Physics Letters 86 (13), 2005 | 150 | 2005 |
Enhancement of graphene thermoelectric performance through defect engineering Y Anno, Y Imakita, K Takei, S Akita, T Arie 2D Materials 4 (2), 025019, 2017 | 126 | 2017 |
Field-emission device with carbon nanotubes for a flat panel display Y Nakayama, S Akita Synthetic Metals 117 (1-3), 207-210, 2001 | 124 | 2001 |