Structure design of NiCo 2 O 4 electrodes for high performance pseudocapacitors and lithium-ion batteries J Pu, Z Liu, Z Ma, J Wang, L Zhang, S Chang, W Wu, Z Shen, H Zhang Journal of Materials Chemistry A 4 (44), 17394-17402, 2016 | 53 | 2016 |
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 | 39 | 2022 |
High‐rate Decoupled Water Electrolysis System Integrated with α‐MoO3 as a Redox Mediator with Fast Anhydrous Proton Kinetics Z Ma, X Lu, S Park, T Shinagawa, M Okubo, K Takanabe, A Yamada Advanced Functional Materials 33 (25), 2214466, 2023 | 5 | 2023 |
Square-scheme electrochemistry in battery electrodes M Okubo, K Kawai, Z Ma, A Yamada Accounts of Materials Research 3 (1), 33-41, 2021 | 5 | 2021 |
HPO 3 2− as a building unit for sodium-ion battery cathodes: 3.1 V operation of Na 2− x Fe (HPO 3) 2 (0< x< 1) Z Ma, L Lander, S Nishimura, M Okubo, A Yamada Chemical Communications 55 (94), 14155-14157, 2019 | 2 | 2019 |
Synthesis, crystal structure and possible proton conduction of Fe (H2PO4) 2F Z Ma, L Lander, S Nishimura, C Fukakusa, T Yamada, M Okubo, ... Solid State Ionics 338, 134-137, 2019 | 1 | 2019 |
Anhydrous Grotthuss mechanism for fast proton transport in a dense oxide-ion array of α-MoO3 Z Ma, XM Shi, S Nishimura, S Ko, M Okubo, A Yamada | | 2022 |
HPO₃²⁻ as a building unit for sodium-ion battery cathodes: 3.1 V operation of Na₂₋ ₓFe (HPO₃) ₂ (0< x< 1) Z Ma, L Lander, S Nishimura, M Okubo, A Yamada | | 2019 |