21 |
A novel form-stable phase change composite with excellent thermal and electrical conductivities Zhang HQ, Sun QR, Yuan YP, Zhang ZJ, Cao XL Chemical Engineering Journal, 336, 342, 2018 |
22 |
Using an in-plane geometry in Hebb-Wagner measurements to avoid errors from electrode overpotential Nam GD, Ahn JH, Joo JH Electrochimica Acta, 260, 855, 2018 |
23 |
Ultrathin electrochemically driven conducting polymer actuators: fabrication and electrochemomechanical characterization Nguyen TN, Rohtlaid K, Plesse C, Nguyen GTM, Soyer C, Grondel S, Cattan E, Madden JDW, Vidal F Electrochimica Acta, 265, 670, 2018 |
24 |
Modeling and simulation of a commercial graphite-LiFePO4 cell in a full range of C-rates Taleghani ST, Marcos B, Lantagne G Journal of Applied Electrochemistry, 48(12), 1389, 2018 |
25 |
Predominant electronic conductivity of Li2ZnTi3O8 anode material prepared in nitrogen for rechargeable lithium-ion batteries Tang HQ, Zan LX, Tang ZY Journal of Electroanalytical Chemistry, 823, 269, 2018 |
26 |
Separating electronic and ionic conductivity in mix-conducting layered lithium transition-metal oxides Wang SY, Yan MY, Li Y, Vinado C, Yang JH Journal of Power Sources, 393, 75, 2018 |
27 |
Synthesis and characterization of the novel K2NiF4-type oxide Pr2Ni0.9Co0.1O4 (+) (delta) Berger C, Bucher E, Egger A, Strasser AT, Schrodl N, Gspan C, Hofer J, Sitte W Solid State Ionics, 316, 93, 2018 |
28 |
First-principles study on surface properties of t-LiFeSO4F: Showing a potential way to enhance electronic conductivity Xie WN, Yang XL, Lin YY, Zhuang WL, Luo Q Chemical Physics Letters, 684, 177, 2017 |
29 |
Development of New Electronic Conductivity Measurement Method for Lithium-ion Battery Electrode-Slurry Takeno M, Fukutsuka T, Miyazaki K, Abe T Chemistry Letters, 46(6), 892, 2017 |
30 |
Cobalt-doped pyrochlore-structured iron fluoride as a highly stable cathode material for lithium-ion batteries Ali G, Rahman G, Chung KY Electrochimica Acta, 238, 49, 2017 |