| 1 |
Notable improvement of capacitive performance of highly nanoporous carbon materials simply by a redox additive electrolyte of p-nitroaniline
Zhu YQ, Zhang L, Chen XY, Xiao ZH, Zhang ZJ
Journal of Power Sources, 299, 629, 2015 |
| 2 |
Potentiodynamic deposition of composition influenced Co1-xNix LDHs thin film electrode for redox supercapacitors
Kulkarni SB, Jagadale AD, Kumbhar VS, Bulakhe RN, Joshi SS, Lokhande CD
International Journal of Hydrogen Energy, 38(10), 4046, 2013 |
| 3 |
Structural and electrochemical properties of polythiophene
Senthilkumar B, Thenamirtham P, Selvan RK
Applied Surface Science, 257(21), 9063, 2011 |
| 4 |
PET Fabric/Poly(3,4-ethylenedioxythiophene) Composite as Polymer Electrode in Redox Supercapacitor
Cho SH, Joo JS, Jung BR, Ha TM, Lee JY
Macromolecular Research, 17(10), 746, 2009 |
| 5 |
A hybrid power source with a shared electrode of polyaniline doped with LiPF6
Ryu KS, Kim KM
Journal of Power Sources, 165(1), 420, 2007 |
| 6 |
Electrochemical performance of polyaniline nanofibres and polyaniline/multi-walled carbon nanotube composite as an electrode material for aqueous redox supercapacitors
Sivakkumar SR, Kim WJ, Choi JA, MacFarlane DR, Forsyth M, Kim DW
Journal of Power Sources, 171(2), 1062, 2007 |
| 7 |
All solid-state redox supercapacitors based on supramolecular 1,5-diaminoanthraquinone oligomeric electrode and polymeric electrolytes
Hashmi SA, Suematsu S, Naoi K
Journal of Power Sources, 137(1), 145, 2004 |
| 8 |
Fabrication and evaluation of 450 F electrochemical redox supercapacitors using inexpensive and high-performance, polyaniline coated, stainless-steel electrodes
Prasad KR, Munichandraiah N
Journal of Power Sources, 112(2), 443, 2002 |
| 9 |
The Possibility of 1,3,4-Oxadiazole Containing Polymer as a New Polymer Electrode in Redox Supercapacitor
Ryu KS, Chang SH, Kwon SK, Kim YH, Hwang DH
Macromolecular Research, 10(1), 40, 2002 |
