Optically transparent wood–cellulose nanocomposite as a base substrate for flexible organic light-emitting diode displays Y Okahisa, A Yoshida, S Miyaguchi, H Yano
Composites Science and Technology 69 (11-12), 1958-1961, 2009
428 2009 Flexible OLED displays using plastic substrates A Sugimoto, H Ochi, S Fujimura, A Yoshida, T Miyadera, M Tsuchida
IEEE Journal of selected topics in quantum electronics 10 (1), 107-114, 2004
374 2004 Device for feeding raw material for chemical vapor phase deposition and method therefor A Onoe, A Yoshida, K Chikuma
US Patent 6,270,839, 2001
97 2001 Protective role of dietary antioxidants in oxidative stress T Osawa, A Yoshida, S Kawakishi, K Yamashita, H Ochi
Oxidative stress and aging, 367-377, 1995
90 1995 21.1: Invited Paper: 3‐inch Full‐color OLED Display using a Plastic Substrate A Yoshida, S Fujimura, T Miyake, T Yoshizawa, H Ochi, A Sugimoto, ...
SID Symposium Digest of Technical Papers 34 (1), 856-859, 2003
70 2003 Organic electroluminescent display panel having an inorganic barrier film A Sugimoto, T Miyadera, A Yoshida
US Patent 6,897,607, 2005
63 2005 Method of subliming material in CVD film preparation method Y Tasaki, M Sato, S Yoshizawa, A Onoe, K Chikuma, A Yoshida
US Patent 5,904,771, 1999
62 1999 A printed flexible humidity sensor with high sensitivity and fast response using a cellulose nanofiber/carbon black composite S Tachibana, YF Wang, T Sekine, Y Takeda, J Hong, A Yoshida, M Abe, ...
ACS Applied Materials & Interfaces 14 (4), 5721-5728, 2022
60 2022 Heteroepitaxial growth of KNbO3 single‐crystal films on SrTiO3 by metalorganic chemical vapor deposition A Onoe, A Yoshida, K Chikuma
Applied physics letters 69 (2), 167-169, 1996
54 1996 Printed strain sensor with high sensitivity and wide working range using a novel brittle–stretchable conductive network YF Wang, T Sekine, Y Takeda, J Hong, A Yoshida, H Matsui, D Kumaki, ...
ACS applied materials & interfaces 12 (31), 35282-35290, 2020
49 2020 Organic light emitting devices on polymer substrates A Yoshida, A Sugimoto, T Miyadera, S Miyaguchi
Journal of Photopolymer Science and Technology 14 (2), 327-332, 2001
45 2001 Surface acoustic wave device and method of manufacturing the same A Yoshida, A Onoe, K Chikuma
US Patent 6,510,597, 2003
29 2003 Deep eutectic solvent induced porous conductive composite for fully printed piezoresistive pressure sensor YF Wang, T Sekine, Y Takeda, J Hong, A Yoshida, D Kumaki, T Shiba, ...
Advanced Materials Technologies 6 (12), 2100731, 2021
26 2021 Luminescent display device and method of manufacturing same A Sugimoto, K Nagayama, T Miyadera, A Yoshida, S Miyaguchi
US Patent 6,653,780, 2003
26 2003 Printed, All-Carbon-Based Flexible Humidity Sensor Using a Cellulose Nanofiber/Graphene Nanoplatelet Composite Ayako Yoshida, Yi-Fei Wang, Shogo Tachibana, Ayuka Hasegawa, Tomohito Sekine ...
Carbon Trends, 2022
25 2022 Epitaxial growth of orientation-controlled crystal films on MgO using intermediate layer by metalorganic chemical vapor deposition A Onoe, A Yoshida, K Chikuma
Applied Physics Letters 78 (1), 49-51, 2001
19 2001 Gas barrier substrate and method for manufacturing the same T Miyadera, A Sugimoto, A Yoshida
US Patent 7,291,397, 2007
18 2007 Waveguiding Epitaxial Potassium Lithium Niobate Single-Crystal Films Deposited by Metalorganic Chemical Vapor Deposition K Chikuma, A Onoe, A Yoshida
Japanese journal of applied physics 37 (10R), 5582, 1998
18 1998 Piezoelectric KNbO/sub 3/films for SAW device applications K Yamanouchi, H Odagawa, T Kojima, A Onoe, A Yoshida, K Chikuma
Proceedings of the 1998 IEEE International Frequency Control Symposium (Cat …, 1998
16 1998 Printed low-hysteresis stretchable strain sensor based on a self-segregating conductive composite A Yoshida, YF Wang, T Sekine, Y Takeda, D Kumaki, S Tokito
ACS Applied Engineering Materials 1 (1), 50-58, 2022
13 2022