91 |
Determination of the ionic resistance in a porous electrode using chronocoulometry Jin XB, Zhuang L, Lu JT Journal of Electroanalytical Chemistry, 519(1-2), 137, 2002 |
92 |
Power limitations of supercapacitor and capacitance distribution operation associated with resistance in porous electrode devices Conway BE, Pell WG Journal of Power Sources, 105(2), 169, 2002 |
93 |
Modeling of the charge-discharge dynamics of lithium manganese oxide electrodes for lithium-ion batteries Deiss E, Haringer D, Novak P, Haas O Electrochimica Acta, 46(26-27), 4185, 2001 |
94 |
Use of quasi-3-dimensional porous electrodes for adsorption and electrocatalytic removal of impurities from waste-waters Conway BE, Ayranci E, Al-Maznai H Electrochimica Acta, 47(5), 705, 2001 |
95 |
Modelling electrochemical impedance data for semi-bipolar lead acid batteries Andersson H, Petersson I, Ahlberg E Journal of Applied Electrochemistry, 31(1), 1, 2001 |
96 |
Nature of the two semi-circles observed on the complex plane plots on porous electrodes in the presence of a concentration gradient Lasia A Journal of Electroanalytical Chemistry, 500(1-2), 30, 2001 |
97 |
Experimental study and modeling of impedance of the her on porous Ni electrodes Hitz C, Lasia A Journal of Electroanalytical Chemistry, 500(1-2), 213, 2001 |
98 |
Amperometric monitoring of hydrogen peroxide in workplace atmospheres by electrodes supported on ion-exchange membranes Toniolo R, Geatti P, Bontempelli G, Schiavon G Journal of Electroanalytical Chemistry, 514(1-2), 123, 2001 |
99 |
Computer simulation of the discharge of metal electrodes in batteries with solid electrolytes Ostapenko GI, Antonov SN Journal of Power Sources, 96(1), 52, 2001 |
100 |
An improved method for the determination of the electrochemical active area of porous composite platinum electrodes Sogaard M, Odgaard M, Skou EM Solid State Ionics, 145(1-4), 31, 2001 |