| 1 |
Impacts of ceramic filler and the crystallite size of polymer matrix on the ionic transport properties of lithium triflate/poly (vinylidene fluoride-co-hexafluoropropene) based polymer electrolytes
Kumar A, Sharma R, Das MK, Gajbhiye P, Kar KK
Electrochimica Acta, 215, 1, 2016 |
| 2 |
High performance composite solid polymer electrolyte systems for electrochemical cells
Wu GM, Lin SJ, Yang CC
Journal of Power Sources, 244, 287, 2013 |
| 3 |
Temperature dependent ionic transport properties in composite solid polymer electrolytes
Wang XL, Fan LZ, Xu ZH, Lin YH, Nan CW
Solid State Ionics, 179(27-32), 1310, 2008 |
| 4 |
Thermal and electrical properties of solid polymer electrolyte PEO9 Mg(ClO4)(2) incorporating nano-porous Al2O3 filler
Dissanayake MAKL, Bandara LRAK, Karaliyadda LH, Jayathilaka PARD, Bokalawala RSP
Solid State Ionics, 177(3-4), 343, 2006 |
| 5 |
All solid lithium polymer batteries with a novel composite polymer electrolyte
Qi L, Itoh T, Imanishi N, Hirano A, Takeda Y, Yamamoto O
Solid State Ionics, 159(1-2), 97, 2003 |
| 6 |
Ionic conductivity and ambient temperature Li electrode reaction in composite polymer electrolytes containing nanosize alumina
Nookala M, Kumar B, Rodrigues S
Journal of Power Sources, 111(1), 165, 2002 |
| 7 |
Enhanced lithium-ion transport in PEG-based composite polymer electrolyte with Mn0.03Zn0.97Al2O4 nanoparticles
Singh TJ, Mimani T, Patil KC, Bhat SV
Solid State Ionics, 154, 21, 2002 |
| 8 |
물 전기분해용 Pt-SPE 전극촉매 제조에 관한 연구(II) -표면 처리의 영향(산소 이온빔)-
김지윤, 박종호, 강문식, 조영일, 최성창, 고석근
HWAHAK KONGHAK, 37(2), 349, 1999 |
