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Seongjae Ko
Seongjae Ko
Assistant Professor, The University of Tokyo
Verified email at chemsys.t.u-tokyo.ac.jp
Title
Cited by
Cited by
Year
Advances and issues in developing salt-concentrated battery electrolytes
Y Yamada, J Wang, S Ko, E Watanabe, A Yamada
Nature Energy 4 (4), 269-280, 2019
13062019
Hydrate-melt electrolytes for high-energy-density aqueous batteries
Y Yamada, K Usui, K Sodeyama, S Ko, Y Tateyama, A Yamada
Nature Energy 1 (10), 1-9, 2016
8502016
A cyclic phosphate-based battery electrolyte for high voltage and safe operation
Q Zheng, Y Yamada, R Shang, S Ko, YY Lee, K Kim, E Nakamura, ...
Nature Energy 5 (4), 291-298, 2020
3322020
Lithium-salt monohydrate melt: A stable electrolyte for aqueous lithium-ion batteries
S Ko, Y Yamada, K Miyazaki, T Shimada, E Watanabe, Y Tateyama, ...
Electrochemistry Communications 104, 106488, 2019
1572019
Electrode potential influences the reversibility of lithium-metal anodes
S Ko, T Obukata, T Shimada, N Takenaka, M Nakayama, A Yamada, ...
Nature Energy 7 (12), 1217-1224, 2022
1172022
Sodium‐and Potassium‐Hydrate Melts Containing Asymmetric Imide Anions for High‐Voltage Aqueous Batteries
Q Zheng, S Miura, K Miyazaki, S Ko, E Watanabe, M Okoshi, CP Chou, ...
Angewandte Chemie 131 (40), 14340-14345, 2019
1042019
Concentrated electrolytes widen the operating temperature range of lithium‐ion batteries
J Wang, Q Zheng, M Fang, S Ko, Y Yamada, A Yamada
Advanced Science 8 (18), 2101646, 2021
862021
An overlooked issue for high-voltage Li-ion batteries: Suppressing the intercalation of anions into conductive carbon
S Ko, Y Yamada, A Yamada
Joule 5 (4), 998-1009, 2021
612021
Designing positive electrodes with high energy density for lithium-ion batteries
M Okubo, S Ko, D Dwibedi, A Yamada
Journal of Materials Chemistry A 9 (12), 7407-7421, 2021
502021
A 62 m K-ion aqueous electrolyte
S Ko, Y Yamada, A Yamada
Electrochemistry Communications 116, 106764, 2020
482020
Dense charge accumulation in MXene with a hydrate-melt electrolyte
K Kim, Y Ando, A Sugahara, S Ko, Y Yamada, M Otani, M Okubo, ...
Chemistry of Materials 31 (14), 5190-5196, 2019
472019
Anhydrous Fast Proton Transport Boosted by the Hydrogen Bond Network in a Dense Oxide‐Ion Array of α‐MoO3
Z Ma, XM Shi, S Nishimura, S Ko, M Okubo, A Yamada
Advanced Materials 34 (34), 2203335, 2022
442022
Formation of a solid electrolyte interphase in hydrate-melt electrolytes
S Ko, Y Yamada, A Yamada
ACS applied materials & interfaces 11 (49), 45554-45560, 2019
422019
Electrolyte design for lithium-ion batteries with a cobalt-free cathode and silicon oxide anode
S Ko, X Han, T Shimada, N Takenaka, Y Yamada, A Yamada
Nature Sustainability 6 (12), 1705-1714, 2023
382023
A 4.8 V Reversible Li2CoPO4F/Graphite Battery Enabled by Concentrated Electrolytes and Optimized Cell Design
S Ko, Y Yamada, A Yamada
Batteries & Supercaps 3 (9), 910-916, 2020
272020
Peroxidase-modified cup-stacked carbon nanofiber networks for electrochemical biosensing with adjustable dynamic range
S Ko, Y Takahashi, H Fujita, T Tatsuma, A Sakoda, K Komori
RSC advances 2 (4), 1444-1449, 2012
272012
Publisher Correction: Advances and issues in developing salt-concentrated battery electrolytes
Y Yamada, J Wang, S Ko, E Watanabe, A Yamada
Nature Energy 4 (5), 427-427, 2019
212019
Controlled direct electron transfer kinetics of fructose dehydrogenase at cup-stacked carbon nanofibers
K Komori, J Huang, N Mizushima, S Ko, T Tatsuma, Y Sakai
Physical Chemistry Chemical Physics 19 (40), 27795-27800, 2017
202017
Electrochemical properties of oxygenated cup-stacked carbon nanofiber-modified electrodes
S Ko, T Tatsuma, A Sakoda, Y Sakai, K Komori
Physical Chemistry Chemical Physics 16 (24), 12209-12213, 2014
192014
Stability of conductive carbon additives in 5 V-class Li-ion batteries
S Ko, Y Yamada, L Lander, A Yamada
Carbon 158, 766-771, 2020
172020
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