Session Details
[20p-D901-1~9]16.3 Bulk, thin-film and other silicon-based solar cells
Wed. Sep 20, 2023 1:30 PM - 4:00 PM JST
Wed. Sep 20, 2023 4:30 AM - 7:00 AM UTC
Wed. Sep 20, 2023 4:30 AM - 7:00 AM UTC
D901 (TKP)
Yasuyoshi Kurokawa(Nagoya Univ.), Shinsuke Miyajima(Tokyo Tech)
[20p-D901-1]Mechanism of high passivation quality of Cat-CVD i-a-Si obtained by Bayesian optimization
〇Ryota Ohshi1, Thi Cam Tu Huynh1, Koichi Higashimine1, Kentaro Kutsukake2, Keisuke Ohdaira1 (1.JAIST, 2.RIKEN)
[20p-D901-2]Comparing Pulsed DC and Constant DC Facing Target Sputtering of Hydrogenated Intrinsic Amorphous Silicon for High-Quality Surface Passivation of Silicon
〇Shasha Li1, Shinsuke Miyajima1 (1.Tokyo Tech)
[20p-D901-3]Damp-Heat Stability of Cat-CVD SiNx and SiOyNx films formed by various conditions
〇Tu ThiCam Huynh1, Keisuke Ohdaira1 (1.JAIST)
[20p-D901-4]Evaluation of Ag Saving Low-Temperature Curing Electrode Paste
〇Takuya Minowa1, Tappei Nishihara2,3, Ryo Yokogawa1,3, Hyunju Lee1,3, Yoshio Ohshita4, Kazuo Muramatsu5, Atsushi Ogura1,3 (1.Meiji Univ., 2.JASRI, 3.MREL, 4.Toyota Technological Inst., 5.NAMICS)
[20p-D901-5]Difference in potential-induced degradation phenomena by contaminating elements on crystalline Si solar-cell surfaces
〇(M2)Yiming Qin1, Asahi Yonemoto1, Kazuhiro Gotoh1,2, Atsushi Masuda1,2 (1.Graduate School Sci. Tech., Niigata Univ., 2.IRCNT, Niigata Univ.)
[20p-D901-6]Reliability evaluation for both lightweight and high design-quality crystalline Si photovoltaic modules
〇Ryoya Okui1, Atsushi Nakahara2, Kazuhiro Gotoh1,3, Atsushi Masuda1,3 (1.Niigata Univ., 2.Dai Nippon Printing, 3.IRCNT, Niigata Univ.)
[20p-D901-7]Durability of Curved photovoltaic module with Back Contact Cell
〇Haruto Morishita1, Sachiko Jonai1 (1.Niigata Univ.)
[20p-D901-8]Influence of damp-heat and thermal cycling sequential test on reliability for novel concept photovoltaic modules without encapsulant
〇Yo Yamakawa1, Kazuma Itoh1, Nobuhito Imajo1, Yasuhiro Okada2, Hiroaki Takahashi2, Keisuke Ohdaira3, Kazuhiro Gotoh1,4, Atsushi Masuda1,4 (1.Fac. Eng., Niigata Univ., 2.Kyocera, 3.JAIST, 4.IRCNT, Niigata Univ.)
[20p-D901-9]Effect of high thermal conductivity materials on suppression of temperature rise during the operation of crystalline silicon solar cell modules (II)
〇Yasushi Sobajima1, Eiko Shimokata1, Yuta Ninomiya1, Koshiro Iwaki1, Keisuke Ohdaira2 (1.Gifu Univ., 2.JAIST)