A 3.8-V earth-abundant sodium battery electrode P Barpanda, G Oyama, S Nishimura, SC Chung, A Yamada Nature communications 5 (1), 4358, 2014 | 827 | 2014 |
Experimental visualization of lithium diffusion in LixFePO4 S Nishimura, G Kobayashi, K Ohoyama, R Kanno, M Yashima, A Yamada Nature materials 7 (9), 707-711, 2008 | 800 | 2008 |
Room-temperature miscibility gap in LixFePO4 A Yamada, H Koizumi, S Nishimura, N Sonoyama, R Kanno, M Yonemura, ... Nature materials 5 (5), 357-360, 2006 | 674 | 2006 |
Sodium iron pyrophosphate: A novel 3.0 V iron-based cathode for sodium-ion batteries P Barpanda, T Ye, S Nishimura, SC Chung, Y Yamada, M Okubo, H Zhou, ... Electrochemistry communications 24, 116-119, 2012 | 394 | 2012 |
Isolation of Solid Solution Phases in Size‐Controlled LixFePO4 at Room Temperature G Kobayashi, S Nishimura, MS Park, R Kanno, M Yashima, T Ida, ... Advanced Functional Materials 19 (3), 395-403, 2009 | 341 | 2009 |
Structure of Li2FeSiO4 S Nishimura, S Hayase, R Kanno, M Yashima, N Nakayama, A Yamada Journal of the American Chemical Society 130 (40), 13212-13213, 2008 | 338 | 2008 |
Polyanionic insertion materials for sodium‐ion batteries P Barpanda, L Lander, S Nishimura, A Yamada Advanced Energy Materials 8 (17), 1703055, 2018 | 330 | 2018 |
New lithium iron pyrophosphate as 3.5 V class cathode material for lithium ion battery S Nishimura, M Nakamura, R Natsui, A Yamada Journal of the American Chemical Society 132 (39), 13596-13597, 2010 | 319 | 2010 |
Lithium iron borates as high‐capacity battery electrodes A Yamada, N Iwane, Y Harada, S Nishimura, Y Koyama, I Tanaka Advanced Materials 32 (22), 3583-3587, 2010 | 298 | 2010 |
Intermediate honeycomb ordering to trigger oxygen redox chemistry in layered battery electrode B Mortemard de Boisse, G Liu, J Ma, S Nishimura, SC Chung, H Kiuchi, ... Nature communications 7 (1), 11397, 2016 | 282 | 2016 |
High‐voltage pyrophosphate cathodes P Barpanda, S Nishimura, A Yamada Advanced Energy Materials 2 (7), 841-859, 2012 | 262 | 2012 |
Highly Reversible Oxygen‐Redox Chemistry at 4.1 V in Na4/7−x[□1/7Mn6/7]O2 (□: Mn Vacancy) B Mortemard de Boisse, S Nishimura, E Watanabe, L Lander, ... Advanced Energy Materials 8 (20), 1800409, 2018 | 211 | 2018 |
Mechanism of sodium storage in hard carbon: an X‐ray scattering analysis Y Morikawa, S Nishimura, R Hashimoto, M Ohnuma, A Yamada Advanced Energy Materials 10 (3), 1903176, 2020 | 184 | 2020 |
Electrochemical Mg 2+ intercalation into a bimetallic CuFe Prussian blue analog in aqueous electrolytes Y Mizuno, M Okubo, E Hosono, T Kudo, K Oh-Ishi, A Okazawa, N Kojima, ... Journal of Materials Chemistry A 1 (42), 13055-13059, 2013 | 184 | 2013 |
Air exposure effect on LiFePO4 JF Martin, A Yamada, G Kobayashi, S Nishimura, R Kanno, D Guyomard, ... Electrochemical and Solid-State Letters 11 (1), A12, 2007 | 137 | 2007 |
Off‐Stoichiometry in Alluaudite‐Type Sodium Iron Sulfate Na2+2xFe2−x(SO4)3 as an Advanced Sodium Battery Cathode Material G Oyama, S Nishimura, Y Suzuki, M Okubo, A Yamada ChemElectroChem 2 (7), 1019-1023, 2015 | 134 | 2015 |
Shift of redox potential and kinetics in Li(MnFe)PO G Kobayashi, A Yamada, S Nishimura, R Kanno, Y Kobayashi, S Seki, ... Journal of Power Sources 189 (1), 397-401, 2009 | 127 | 2009 |
Phase Diagram of Olivine NaxFePO4 (0 < x < 1) J Lu, SC Chung, S Nishimura, A Yamada Chemistry of Materials 25 (22), 4557-4565, 2013 | 125 | 2013 |
Kinetics of Nucleation and Growth in Two-Phase Electrochemical Reaction of LixFePO4 G Oyama, Y Yamada, R Natsui, S Nishimura, A Yamada The Journal of Physical Chemistry C 116 (13), 7306-7311, 2012 | 116 | 2012 |
Structural and magnetic properties of Lix (MnyFe1− y) PO4 electrode materials for Li-ion batteries M Kope, A Yamada, G Kobayashi, S Nishimura, R Kanno, A Mauger, ... Journal of Power Sources 189 (2), 1154-1163, 2009 | 109 | 2009 |