Lead-acid batteries: science and technology, 1st Edition D Pavlov Elsevier, 2011 | 651 | 2011 |
Mechanism of action of electrochemically active carbons on the processes that take place at the negative plates of lead-acid batteries D Pavlov, T Rogachev, P Nikolov, G Petkova Journal of Power Sources 191 (1), 58-75, 2009 | 276 | 2009 |
Influence of carbons on the structure of the negative active material of lead-acid batteries and on battery performance D Pavlov, P Nikolov, T Rogachev Journal of Power Sources 196 (11), 5155-5167, 2011 | 199 | 2011 |
The lead‐acid battery lead dioxide active mass: a gel‐crystal system with proton and electron conductivity D Pavlov Journal of the Electrochemical Society 139 (11), 3075, 1992 | 168 | 1992 |
Capacitive carbon and electrochemical lead electrode systems at the negative plates of lead–acid batteries and elementary processes on cycling D Pavlov, P Nikolov Journal of Power Sources 242, 380-399, 2013 | 162 | 2013 |
Growth processes of the anodic crystalline layer on potentiostatic oxidation of lead in sulfuric acid D Pavlov, N Iordanov Journal of the Electrochemical Society 117 (9), 1103, 1970 | 162 | 1970 |
Mechanism of the elementary electrochemical processes taking place during oxygen evolution on the lead dioxide electrode D Pavlov, B Monahov Journal of the electrochemical society 143 (11), 3616, 1996 | 155 | 1996 |
Processes in solid state at anodic oxidation of a lead electrode in H2SO4 solution and their dependence on the oxide structure and properties D Pavlov Electrochimica Acta 23 (9), 845-854, 1978 | 146 | 1978 |
Dependence of the composition of the anodic layer on the oxidation potential of lead in sulfuric acid D Pavlov, CN Poulieff, E Klaja, N Iordanov Journal of the Electrochemical Society 116 (3), 316, 1969 | 135 | 1969 |
Processes of formation of divalent lead oxide compounds on anodic oxidation of lead in sulphuric acid D Pavlov Electrochimica Acta 13 (10), 2051-2061, 1968 | 135 | 1968 |
A theory of the grid/positive active-mass (PAM) interface and possible methods to improve PAM utilization and cycle life of lead/acid batteries D Pavlov Journal of power sources 53 (1), 9-21, 1995 | 131 | 1995 |
Mechanism of passivation processes of the lead sulphate electrode D Pavlov, R Popova Electrochimica Acta 15 (9), 1483-1491, 1970 | 131 | 1970 |
Influence of expander components on the processes at the negative plates of lead-acid cells on high-rate partial-state-of-charge cycling. Part II. Effect of carbon additives on … D Pavlov, P Nikolov, T Rogachev Journal of Power Sources 195 (14), 4444-4457, 2010 | 123 | 2010 |
Mechanism of action of Sn on the passivation phenomena in the lead‐acid battery positive plate (Sn‐free effect) D Pavlov, B Monakhov, M Maja, N Penazzi Journal of the Electrochemical Society 136 (1), 27, 1989 | 118 | 1989 |
Lead–carbon electrode with inhibitor of sulfation for lead-acid batteries operating in the HRPSoC duty D Pavlov, P Nikolov Journal of The Electrochemical Society 159 (8), A1215, 2012 | 101* | 2012 |
Influence of fast charge on the life cycle of positive lead–acid battery plates D Pavlov, G Petkova, M Dimitrov, M Shiomi, M Tsubota Journal of power sources 87 (1-2), 39-56, 2000 | 100 | 2000 |
Influence of H2SO4 concentration on the mechanism of the processes and on the electrochemical activity of the Pb/PbO2/PbSO4 electrode D Pavlov, A Kirchev, M Stoycheva, B Monahov Journal of Power Sources 137 (2), 288-308, 2004 | 96 | 2004 |
Premature capacity loss (PCL) of the positive lead/acid battery plate: a new concept to describe the phenomenon D Pavlov Journal of power sources 42 (3), 345-363, 1993 | 93 | 1993 |
Hydration and amorphization of active mass PbO2 particles and their influence on the electrical properties of the lead‐acid battery positive plate D Pavlov, I Balkanov, T Halachev, P Rachev Journal of the Electrochemical Society 136 (11), 3189, 1989 | 87 | 1989 |
Mechanism of the electrochemical oxidation of lead to lead dioxide electrode in H 2 SO 4 solution D Pavlov, Z Dinev Journal of the Electrochemical Society 127 (4), 855, 1980 | 86 | 1980 |