| Electrochemical systems J Newman, NP Balsara John Wiley & Sons, 2021 | 8727 | 2021 |
| Modeling of galvanostatic charge and discharge of the lithium/polymer/insertion cell M Doyle, TF Fuller, J Newman Journal of the Electrochemical society 140 (6), 1526, 1993 | 4566 | 1993 |
| Simulation and optimization of the dual lithium ion insertion cell TF Fuller, M Doyle, J Newman Journal of the electrochemical society 141 (1), 1, 1994 | 2313 | 1994 |
| A general energy balance for battery systems D Bernardi, E Pawlikowski, J Newman Journal of the electrochemical society 132 (1), 5, 1985 | 2194 | 1985 |
| Comparison of modeling predictions with experimental data from plastic lithium ion cells M Doyle, J Newman, AS Gozdz, CN Schmutz, JM Tarascon Journal of the Electrochemical Society 143 (6), 1890, 1996 | 1798 | 1996 |
| The impact of elastic deformation on deposition kinetics at lithium/polymer interfaces C Monroe, J Newman Journal of The Electrochemical Society 152 (2), A396, 2005 | 1711 | 2005 |
| Porous‐electrode theory with battery applications J Newman, W Tiedemann AIChE Journal 21 (1), 25-41, 1975 | 1653 | 1975 |
| Water and thermal management in solid‐polymer‐electrolyte fuel cells TF Fuller, J Newman Journal of the Electrochemical Society 140 (5), 1218, 1993 | 1090 | 1993 |
| Vapor‐liquid equilibria in multicomponent aqueous solutions of volatile weak electrolytes TJ Edwards, G Maurer, J Newman, JM Prausnitz AIChE Journal 24 (6), 966-976, 1978 | 980 | 1978 |
| Discharge model for the lithium iron-phosphate electrode V Srinivasan, J Newman Journal of the Electrochemical Society 151 (10), A1517, 2004 | 966 | 2004 |
| Resistance for flow of current to a disk J Newman J. electrochem. Soc 113 (5), 501-502, 1966 | 959 | 1966 |
| Modeling transport in polymer-electrolyte fuel cells AZ Weber, J Newman Chemical reviews 104 (10), 4679-4726, 2004 | 941 | 2004 |
| Theoretical analysis of current distribution in porous electrodes JS Newman, CW Tobias Journal of The Electrochemical Society 109 (12), 1183, 1962 | 913 | 1962 |
| Dendrite growth in lithium/polymer systems: A propagation model for liquid electrolytes under galvanostatic conditions C Monroe, J Newman Journal of The Electrochemical Society 150 (10), A1377, 2003 | 857 | 2003 |
| Stress generation and fracture in lithium insertion materials J Christensen, J Newman Journal of Solid State Electrochemistry 10, 293-319, 2006 | 785 | 2006 |
| Effects of microporous layers in polymer electrolyte fuel cells AZ Weber, J Newman Journal of the Electrochemical Society 152 (4), A677, 2005 | 678 | 2005 |
| The importance of the lithium ion transference number in lithium/polymer cells M Doyle, TF Fuller, J Newman Electrochimica Acta 39 (13), 2073-2081, 1994 | 667 | 1994 |
| Transport in polymer-electrolyte membranes: II. Mathematical model AZ Weber, J Newman Journal of the Electrochemical Society 151 (2), A311, 2004 | 647 | 2004 |
| Relaxation phenomena in lithium‐ion‐insertion cells TF Fuller, M Doyle, J Newman Journal of the Electrochemical Society 141 (4), 982, 1994 | 578 | 1994 |
| Design of an electrochemical cell making syngas (CO+ H2) from CO2 and H2O reduction at room temperature C Delacourt, PL Ridgway, JB Kerr, J Newman Journal of The Electrochemical Society 155 (1), B42, 2007 | 548 | 2007 |
