Naoji Matsuhisa
Naoji Matsuhisa
Associate Professor, Research Center for Advanced Science and Technology, The University of Tokyo
Verified email at - Homepage
Cited by
Cited by
Ultraflexible organic photonic skin
T Yokota, P Zalar, M Kaltenbrunner, H Jinno, N Matsuhisa, H Kitanosako, ...
Science advances 2 (4), e1501856, 2016
Inflammation-free, gas-permeable, lightweight, stretchable on-skin electronics with nanomeshes
A Miyamoto, S Lee, NF Cooray, S Lee, M Mori, N Matsuhisa, H Jin, ...
Nature nanotechnology 12 (9), 907-913, 2017
Printable elastic conductors with a high conductivity for electronic textile applications
N Matsuhisa, M Kaltenbrunner, T Yokota, H Jinno, K Kuribara, T Sekitani, ...
Nature communications 6 (1), 7461, 2015
An integrated self-healable electronic skin system fabricated via dynamic reconstruction of a nanostructured conducting network
D Son, J Kang, O Vardoulis, Y Kim, N Matsuhisa, JY Oh, JWF To, J Mun, ...
Nature nanotechnology 13 (11), 1057-1065, 2018
Printable elastic conductors by in situ formation of silver nanoparticles from silver flakes
N Matsuhisa, D Inoue, P Zalar, H Jin, Y Matsuba, A Itoh, T Yokota, ...
Nature materials 16 (8), 834-840, 2017
A wireless body area sensor network based on stretchable passive tags
S Niu, N Matsuhisa, L Beker, J Li, S Wang, J Wang, Y Jiang, X Yan, Y Yun, ...
Nature Electronics 2 (8), 361-368, 2019
Materials and structural designs of stretchable conductors
N Matsuhisa, X Chen, Z Bao, T Someya
Chemical Society Reviews 48 (11), 2946-2966, 2019
Auxetic mechanical metamaterials to enhance sensitivity of stretchable strain sensors
Y Jiang, Z Liu, N Matsuhisa, D Qi, WR Leow, H Yang, J Yu, G Chen, Y Liu, ...
Advanced Materials 30 (12), 1706589, 2018
Artificial multimodal receptors based on ion relaxation dynamics
I You, DG Mackanic, N Matsuhisa, J Kang, J Kwon, L Beker, J Mun, W Suh, ...
Science 370 (6519), 961-965, 2020
An artificial sensory neuron with tactile perceptual learning
C Wan, G Chen, Y Fu, M Wang, N Matsuhisa, S Pan, L Pan, H Yang, ...
Advanced Materials 30 (30), 1801291, 2018
Rational design of capacitive pressure sensors based on pyramidal microstructures for specialized monitoring of biosignals
SRA Ruth, L Beker, H Tran, VR Feig, N Matsuhisa, Z Bao
Advanced functional materials 30 (29), 1903100, 2020
Enhancing the performance of stretchable conductors for e‐textiles by controlled ink permeation
H Jin, N Matsuhisa, S Lee, M Abbas, T Yokota, T Someya
Advanced Materials 29 (21), 1605848, 2017
Decoupling of mechanical properties and ionic conductivity in supramolecular lithium ion conductors
DG Mackanic, X Yan, Q Zhang, N Matsuhisa, Z Yu, Y Jiang, T Manika, ...
Nature communications 10 (1), 5384, 2019
Plasticizing silk protein for on‐skin stretchable electrodes
G Chen, N Matsuhisa, Z Liu, D Qi, P Cai, Y Jiang, C Wan, Y Cui, WR Leow, ...
Advanced Materials 30 (21), 1800129, 2018
A highly sensitive capacitive-type strain sensor using wrinkled ultrathin gold films
R Nur, N Matsuhisa, Z Jiang, MOG Nayeem, T Yokota, T Someya
Nano letters 18 (9), 5610-5617, 2018
Transparent, conformable, active multielectrode array using organic electrochemical transistors
W Lee, D Kim, N Matsuhisa, M Nagase, M Sekino, GG Malliaras, T Yokota, ...
Proceedings of the National Academy of Sciences 114 (40), 10554-10559, 2017
Ultraflexible near‐infrared organic photodetectors for conformal photoplethysmogram sensors
S Park, K Fukuda, M Wang, C Lee, T Yokota, H Jin, H Jinno, H Kimura, ...
Advanced Materials 30 (34), 1802359, 2018
Strain-insensitive intrinsically stretchable transistors and circuits
W Wang, S Wang, R Rastak, Y Ochiai, S Niu, Y Jiang, PK Arunachala, ...
Nature Electronics 4 (2), 143-150, 2021
Integration of organic electrochemical and field‐effect transistors for ultraflexible, high temporal resolution electrophysiology arrays
W Lee, D Kim, J Rivnay, N Matsuhisa, T Lonjaret, T Yokota, H Yawo, ...
Advanced Materials 28 (44), 9722-9728, 2016
An artificial sensory neuron with visual-haptic fusion
C Wan, P Cai, X Guo, M Wang, N Matsuhisa, L Yang, Z Lv, Y Luo, XJ Loh, ...
Nature communications 11 (1), 4602, 2020
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