4 - 4 |
The Gaston Plante medal presentation address Havezov I |
5 - 6 |
Proclamation of the Gaston Plante Medal Committee Dr. Patrick Moseley, Dr. Kenneth Peters, Dr. Robert Nelson Pavlov D |
7 - 8 |
Gaston Plante Medal acceptance speech Moseley PT |
9 - 9 |
7th International Conference on Lead-Acid Batteries, Varna, Bulgaria, 9-12 June 2008 Preface Pavlov D |
10 - 15 |
Assessment of factors responsible for polymer electrolyte membrane fuel cell electrode performance by statistical analysis Velayutham G, Dhathathreyan KS, Rajalakshmi N, Raman DS |
16 - 21 |
Valve Regulated Lead Acid battery float service life estimation using a Kalman filter Burgess WL |
22 - 27 |
The lead and lead-acid battery industries during 2002 and 2007 in China Chen HY, Li AJ, Finlow DE |
28 - 35 |
Discharge mechanisms and electrochemical impedance spectroscopy measurements of single negative and positive lead-acid battery plates D'Alkaine CV, Mengarda P, Impinnisi PR |
36 - 41 |
The influence of formation conditions on the electrochemical behavior of lead oxide in sulfuric acid solution Yolshina LA, Malkov VB, Yolshin AN |
42 - 50 |
Simulation of the current distribution in lead-acid batteries to investigate the dynamic charge acceptance in flooded SLI batteries Kowal J, Schulte D, Sauer DU, Karden E |
51 - 57 |
Influence of some metal ions on the structure and properties of doped beta-PbO2 Chahmana N, Matrakova M, Zerroual L, Pavlov D |
58 - 75 |
Mechanism of action of electrochemically active carbons on the processes that take place at the negative plates of lead-acid batteries Pavlov D, Rogachev T, Nikolov P, Petkova G |
76 - 81 |
Plates soaking prior formation and its influence on positive active material phase composition and battery performance Foudia M, Zerroual L, Matrakova M |
82 - 90 |
Studies of the pulse charge of lead-acid batteries for photovoltaic applications Part IV. Pulse charge of the negative plate Kirchev A, Mattera F, Lemaire E, Dong K |
91 - 96 |
Visual modelling electrochemical processes Semenenko MG |
97 - 102 |
Combined cyclic voltammetry and in situ electrochemical atomic force microscopy on lead electrode in sulfuric acid solution with or without lignosulfonate Hirai N, Kubo S, Magara K |
103 - 110 |
Electrodeposition of lead dioxide from methanesulfonate solutions Velichenko AB, Amadelli R, Gruzdeva EV, Luk'yanenko TV, Danilov FI |
111 - 118 |
Study on the microstructure and electrochemical properties of lead-calcium-tin-aluminum alloys Li H, Guo WX, Chen HY, Finlow DE, Zhou HW, Dou CL, Xiao GM, Peng SG, Wei WW, Wang H |
119 - 126 |
Thermal behavior of VRLA battery during closed oxygen cycle operation Valkovska D, Dimitrov M, Todorov T, Pavlov D |
127 - 133 |
Failure modes of valve-regulated lead-acid batteries for electric bicycle applications in deep discharge Guo YL, Tang SQ, Meng G, Yang SJ |
134 - 138 |
Consequences of including carbon in the negative plates of Valve-regulated Lead-Acid batteries exposed to high-rate partial-state-of-charge operation Moseley PT |
139 - 143 |
Numerical simulation of electrolyte particles trajectory to investigate battery cover design characteristics Esfahanian V, Darian HM, Babazadeh H, Aghvami M, Pasandeh R, Torabi F, Ahmadi G |
144 - 148 |
Influence of Mg2+, Al3+, Co2+, Sn2+ and Sb3+ on the electrical performance of doped beta-lead dioxide Chahmana N, Zerroual L, Matrakova M |
149 - 153 |
Lead-acid batteries for partial-state-of-charge applications Hariprakash B, Gaffoor SA, Shukla AK |
154 - 158 |
Studies of doped negative valve-regulated lead-acid battery electrodes Micka K, Calabek M, Baca P, Krivak P, Labus R, Bilko R |
159 - 164 |
Negative plate macropore surfaces in lead-acid batteries: Porosity, Brunauer-Emmett-Teller area, and capacity D'Alkaine CV, Brito GAD |
165 - 175 |
Recovery of discarded sulfated lead-acid batteries Karami H, Asadi R |
176 - 183 |
Lead-acid battery use in the development of renewable energy systems in China Chang Y, Mao XX, Zhao YF, Feng SL, Chen HY, Finlow D |