1 |
Impact of membrane characteristics on the performance and cycling of the Br-2-H-2 redox flow cell Tucker MC, Cho KT, Spingler FB, Weber AZ, Lin GY Journal of Power Sources, 284, 212, 2015 |
2 |
Improving performance of rechargeable Li-air batteries from using Li-Nafion (R) binder Cheng H, Scott K Electrochimica Acta, 116, 51, 2014 |
3 |
Effects of Nafion impregnation using inkjet printing for membrane electrode assemblies in polymer electrolyte membrane fuel cells Wang ZQ, Nagao Y Electrochimica Acta, 129, 343, 2014 |
4 |
Low platinum, high limiting current density of the PEMFC (proton exchange membrane fuel cell) based on multilayer cathode catalyst approach Fofana D, Natarajan SK, Hamelin J, Benard P Energy, 64, 398, 2014 |
5 |
Electrocatalytic determination of traces of insulin using a novel silica nanoparticles-Nafion modified glassy carbon electrode Amini N, Gholivand MB, Shamsipur M Journal of Electroanalytical Chemistry, 714, 70, 2014 |
6 |
Nafion coated sulfur-carbon electrode for high performance lithium-sulfur batteries Tang QW, Shan ZQ, Wang L, Qin X, Zhu KL, Tian JH, Liu XS Journal of Power Sources, 246, 253, 2014 |
7 |
A high performance polytetrafluoroethene/Nafion composite membrane for vanadium redox flow battery application Teng XG, Dai JC, Su J, Zhu YM, Liu HP, Song ZG Journal of Power Sources, 240, 131, 2013 |
8 |
Relationship between properties of hybrid ion-exchange membranes and dopant nature Safronova EY, Yaroslavtsev AB Solid State Ionics, 251, 23, 2013 |
9 |
A model for optimal catalyst layer in a fuel cell Kulikovsky AA Electrochimica Acta, 79, 31, 2012 |
10 |
Improved lead recovery and sulphate removal from used lead acid battery through Electrokinetic technique Soundarrajan C, Sivasankar A, Maruthamuthu S, Veluchamy A Journal of Hazardous Materials, 217, 452, 2012 |