| 1 |
Demonstration of the conductive species in "Li-free" solid solvent doped with LiBH4 and its Li+ dominating conduction mechanism
Miyazaki R, Sakaguchi I, Weitzel KM, Hihara T
Electrochimica Acta, 283, 1188, 2018 |
| 2 |
Synthesis and characterisation of the new oxyfluoride Li5SiO4F
Dong B, Yan JH, Walkley B, Inglis KK, Blanc F, Hull S, West AR
Solid State Ionics, 327, 64, 2018 |
| 3 |
Lithium ion Conductor and Electronic Conductor Co-coating Modified Layered Cathode Material LiNi1/3Mn1/3Co1/3O2
Dang RB, Chen MM, Lee YL, Cheng YZ, Xue L, Hu ZB, Xiao XL, Huang XJ
Electrochimica Acta, 247, 443, 2017 |
| 4 |
Preparation of Li7La3(Zr2-x,Nb-x)O-12 (x=0-1.5) and Li3BO3/LiBO2 composites at low temperatures using a sol-gel process
Rosero-Navarro NC, Yamashita T, Miura A, Higuchi M, Tadanaga K
Solid State Ionics, 285, 6, 2016 |
| 5 |
All-solid-state lithium-ion battery using Li2.2C0.8B0.2O3 electrolyte
Okumura T, Takeuchi T, Kobayashi H
Solid State Ionics, 288, 248, 2016 |
| 6 |
Phase transition in lithium garnet oxide ionic conductors Li7La3Zr2O12: The role of Ta substitution and H2O/CO2 exposure
Wang YX, Lai W
Journal of Power Sources, 275, 612, 2015 |
| 7 |
Microstructure and ionic conductivity of LLTO thin films: Influence of different substrates and excess lithium in the target
Aguesse F, Roddatis V, Roqueta J, Garcia P, Pergolesi D, Santiso J, Kilner JA
Solid State Ionics, 272, 1, 2015 |
| 8 |
Li1.5Al0.5Ge1.5(PO4)(3) Li-ion conductor prepared by melt-quench and low temperature pressing
Yan BG, Zhu YQ, Pan F, Liu JC, Lu L
Solid State Ionics, 278, 65, 2015 |
| 9 |
Electronic structure of spinel-type LiNi1/2Ge3/2O4 and LiNi1/2Mn3/2O4 as positive electrodes for rechargeable Li-ion batteries studied by first-principles density functional theory
Nakayama M, Jalem R, Kasuga T
Solid State Ionics, 262, 74, 2014 |
| 10 |
Lithium ion conductivity of Nd-doped (Li, La)TiO3 ceramics
Teranishi T, Yamamoto M, Hayashi H, Kishimoto A
Solid State Ionics, 243, 18, 2013 |
