61 |
Investigation of the gas-diffusion-electrode used as lithium/air cathode in non-aqueous electrolyte and the importance of carbon material porosity Tran C, Yang XQ, Qu DY Journal of Power Sources, 195(7), 2057, 2010 |
62 |
Investigation of the oxygen reduction reaction on the carbon electrodes loaded with MnO2 catalyst Ominde N, Bartlett N, Yang XQ, Qu DY Journal of Power Sources, 195(13), 3984, 2010 |
63 |
Mechanism for electrochemical hydrogen insertion in carbonaceous materials Qu DY Journal of Power Sources, 179(1), 310, 2008 |
64 |
The effect of oxygen reduction on activated carbon electrodes loaded with manganese dioxide catalyst Ominde N, Bartlett N, Yang XQ, Qu DY Journal of Power Sources, 185(2), 747, 2008 |
65 |
Platinum layer formation on a self-assembled monolayer by electrochemical deposition Qu DY, Uosaki K Chemistry Letters, 35(3), 258, 2006 |
66 |
Investigation of the porosity of electrolytic manganese dioxide and its performance as alkaline cathode material Qu DY Journal of Power Sources, 156(2), 692, 2006 |
67 |
Development of high-capacity primary alkaline manganese dioxide/zinc cells consisting of Bi-doping of MnO2 Qu DY, Diehl D, Conway BE, Pell WG, Qian SY Journal of Applied Electrochemistry, 35(11), 1111, 2005 |
68 |
The study of the proton diffusion process in the porous MnO2 electrode Qu DY Electrochimica Acta, 49(4), 657, 2004 |
69 |
Application of a.c. impedance technique to the study of the proton diffusion process in the porous MnO2 electrode Qu DY Electrochimica Acta, 48(12), 1675, 2003 |
70 |
Studies of the activated carbons used in double-layer supercapacitors Qu DY Journal of Power Sources, 109(2), 403, 2002 |