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Keita Funayama
Keita Funayama
Verified email at mosk.tytlabs.co.jp
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Cited by
Cited by
Year
Effect of mechanical stress on lithium chemical potential in positive electrodes and solid electrolytes for lithium ion batteries
K Funayama, T Nakamura, N Kuwata, J Kawamura, T Kawada, ...
Electrochemistry 83 (10), 894-897, 2015
172015
Electromotive force measurements of LiCoO2 electrode on a lithium ion-conducting glass ceramics under mechanical stress
K Funayama, T Nakamura, N Kuwata, J Kawamura, T Kawada, ...
Solid State Ionics 285, 75-78, 2016
162016
Stochastic optimal control to minimize the impact of manufacturing variations on nanomechanical systems
Y Ito, K Funayama, J Hirotani, Y Ohno, Y Tadokoro
IEEE Access 7, 171195-171205, 2019
132019
Experimental evaluation of influence of stress on Li chemical potential and phase equilibrium in two-phase battery electrode materials
Y Kimura, K Funayama, M Fakkao, T Nakamura, N Kuwata, T Kawada, ...
Electrochemistry 89 (4), 355-362, 2021
82021
Noise modeling in field emission and evaluation of the nano-receiver in terms of temperature
K Funayama, H Tanaka, J Hirotani, K Shimaoka, Y Ohno, Y Tadokoro
IEEE Access 7, 57820-57828, 2019
62019
Dependence of enhancement factor on electrode size for field emission current from carbon nanotube on silicon wafer
K Funayama, H Tanaka, J Hirotani, K Shimaoka, Y Ohno, Y Tadokoro
Nanotechnology 30 (42), 425201, 2019
52019
The influence of crystal orientation on the change in Li chemical potential of LiCoO2 under mechanical stress
M Fakkao, Y Kimura, K Funayama, T Nakamura, N Kuwata, J Kawamura, ...
Solid State Ionics 299, 8-12, 2017
52017
Flexibly designable wettability gradient for passive control of fluid motion via physical surface modification
K Funayama, A Miura, H Tanaka
Scientific Reports 13 (1), 6440, 2023
42023
Carbon nanotube-based nanomechanical receiver for digital data transfer
K Funayama, H Tanaka, J Hirotani, K Shimaoka, Y Ohno, Y Tadokoro
ACS Applied Nano Materials 4 (12), 13041-13047, 2021
42021
Artificial-intelligence-assisted mass fabrication of nanocantilevers from randomly positioned single carbon nanotubes
Y Tadokoro, K Funayama, K Kawano, A Miura, J Hirotani, Y Ohno, ...
Microsystems & Nanoengineering 9 (1), 32, 2023
32023
Control of coupling between micromechanical topological waveguides
K Funayama, K Yatsugi, A Miura, H Iizuka
International Journal of Mechanical Sciences 236, 107755, 2022
32022
Selectable diffusion direction with topologically protected edge modes
K Funayama, J Hirotani, A Miura, H Tanaka
Communications Physics 6 (1), 364, 2023
22023
Dynamic range enhancement via linearized output in nanoelectromechanical systems by combining high-order harmonics
K Funayama, H Tanaka, J Hirotani, K Shimaoka, Y Ohno, Y Tadokoro
IEEE Transactions on Circuits and Systems II: Express Briefs 68 (10), 3251-3255, 2021
22021
Robustness of quantum spin Hall effect-inspired edge modes depending on C6 symmetry in topological diffusion systems
K Funayama, J Hirotani, A Miura, H Tanaka
Applied Physics Letters 123 (22), 2023
12023
Periodic switching of acoustic radiation force with beat created by multitone field
H Tanaka, K Funayama, Y Tadokoro
Scientific Reports 12 (1), 15029, 2022
12022
A consideration of semipermeable membrane structure for vacuum cavity fabrication using vapor etching
A Miura, K Shimaoka, K Funayama, H Tanaka, Y Tadokoro
IEEJ Transactions on Sensors and Micromachines 141 (10), 364-365, 2021
12021
Noise‐enhanced field emission current from a carbon nanotube cantilever
Y Tadokoro, K Funayama, H Tanaka
Electronics Letters 54 (12), 770-772, 2018
12018
Evaluation of topological protection in kagome lattice-based thermal diffusion systems
K Funayama, J Hirotani, H Tanaka
Applied Physics Letters 124 (23), 2024
2024
Silicon-Based Suspended Microchannel Resonator Developed Using Au Thermal Diffusion Bonding for Mass Sensing of Biomaterials
K Funayama, A Miura, F Arai, H Tanaka
Journal of Microelectromechanical Systems, 2024
2024
Experimental Demonstration of Nanoscale Digital Receiver with Carbon Nanotube
K Funayama, H Tanaka, J Hirotani, K Shimaoka, Y Ohno, Y Tadokoro
GLOBECOM 2022-2022 IEEE Global Communications Conference, 6523-6528, 2022
2022
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