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Journal of Power Sources 1993: Vol 46 Index PDF

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Preview Journal of Power Sources 1993: Vol 46 Index

418 Journal of Power Sources, 46 (1993) 418 Author Index of Volume 46 Afifi, S.E., 285 Hertz, J., 299 Ruetschi, P., 151 Andreev, P., 349 Hilger, J.P., 299 Ruevski, S., 337 Andriiko, A.A., 29 Hlavac, M.J., 391 Apateanu, L., 239 Hollenkamp, A.F., 239 Saba, A.E., 285 Appel, P.W., 39, 49 Hu, H., 263 Santosh, ., 61 Asai, K., 383 See, J.B., 311 Koop, M.J., 239 Shabanah, H.M., 17 Bashtavelova, E., 211, 219 Koster, W., 391 Shenouda, A.Y., 285 Bauer, J., 191 Kubotani, S., 383 Shousong, W., 327 Kuzminskii, Ye.V., 29 Shukla, A.K., 61 Calasanzio, D., 375 Singh, K., 65 Chen, Z.W., 311 Maja, M., 375 Spinelli, P., 375 Matsumoto, K., 383 Stalick, T., 49 Deshpande, V.K., 65 Meissner, E., 231 Dietz, H., 191 Moussa, M.N.H., 17 Takahashi, J., 383 Dimitrov, M.K., 203 Tiwari, R.U., 65 Nelson, R.F., 159 Tummavuori, J., 269 Edwards, D.B., 39, 49 Niepraschk, H., 191 Tuphorn, H., 361 Ehara, Y., 383 Notin, M., 299 Ekdunge, P., 251 Nyrkova, L.I., 29 Vasudevan, P., 61 E]-Shafei, A.A., 17 Venugopalan, S., 1 Pavlov, D., 147, 171, 203, Vilhunen, J.K., 269 Feder, D.O., 391 337, 349 Fornasieri, C., 299 Phougat, N., 61 Wiesener, K., 191 Prout, L., 73, 117 Winsel, A., 211, 219 Gancheva, S., 349 Garche, J., 191 Rogachev, T., 337 Yakimoff, N., 149 Gillian, W.F., 311 Ronglong, C., 327 Yasaki, T., 383 Elsevier Sequoia Journal of Power Sources, 46 (1993) 419-422 419 Subject Index of Volume 46 Agglomerate-of-spheres model cyanines for oxygen reduction in the agglomerate-of-spheres model. solid-polymer-electrolyte fuel cells, 61 Theoretical considerations, 211 Cast-on-strap process PbO, active material as an electro- joining of lead—antimony and lead- crystalline network, 219 calcium alloy lugs by a laboratory Alkalization model cast-on-strap process, 311 experimental study of the alkalization Charge behaviour model for the PbSO, anodic layer on ten minutes-rechargeable, valve- lead/acid positive-plate grids, 263 regulated, lead/acid battery after Alloys deep discharge and stand, 383 joining of lead—antimony and lead- Cycle life calcium alloy lugs by a laboratory ten minutes-rechargeable, valve- cast-on-strap process, 311 regulated, lead/acid battery after Anodic layer deep discharge and stand, 383 experimental study of the alkalization model for the PbSO, anodic layer on lead/acid positive-plate grids, 263 Discharge behaviour Antimony influence of recharge potential and acid influence of phosphoric acid on the concentration on the discharge electrochemistry of lead electrodes in behaviour of PbO, electrodes, 231 sulfuric acid electrolyte containing antimony, 1 electrolyte stratification in lead/acid Electrochemical oxidation batteries: Effect of grid antimony catalytic influence of underpotentially and relationship to capacity loss, 239 deposited submonolayers of different Antimony-free grids metals in ethylene glycol oxidation premature capacity loss in lead/acid on various noble metal electrodes in batteries with antimony-free grids alkaline medium, 17 during cycling under constant-voltage- Electrodes charging conditions. 1. Characteriza- catalytic influence of underpotentially deposited submonolayers of different tion and causes of the phenomenon, 191 metals in ethylene glycol oxidation on various noble metal electrodes in alkaline medium, 17 Batteries influence of recharge potential and acid heat generation of electrochemical concentration on the discharge systems. Batteries, 29 behaviour of PbO, electrodes, 231 Electrolyte diffusion modeling the effects of electrolyte Calcium diffusion and paste conductivity on new aspects of the solid phase equilib- lead/acid battery performance, 49 ria in the ternary Pb-Sn—Ca system Electrolyte stratification for Xc,<25 at.%, 299 electrolyte stratification in lead/acid Capacity batteries: Effect of grid antimony aspects of lead/acid battery technology. and relationship to capacity loss, 239 6. Designing for capacity, 73 Ethylene glycol Carbon electrodes catalytic influence of underpotentially Nafion®-bound carbon electrodes deposited submonolayers of different containing transition-metal phthalo- metals in ethylene glycol oxidation Elsevier Sequoia 420 on various noble metal electrodes in premature capacity loss in lead/acid alkaline medium, 17 batteries with antimony-free grids Expander’s stability during cycling under constant-voltage- effect of hydrogen and oxygen on charging conditions. 1. Characteriza- stability of expanders and perform- tion and causes of the phenomenon, ance of lead/acid batteries, 349 191 location of the phenomena of prema- Fast charging ture capacity loss during cycling of fast charging of lead/acid batteries, 375 lead/acid batteries with lead grids, Flooded lead/acid batteries 203 evaluating the state-of-health of flooded influence of recharge potential and acid and valve-regulated lead/acid batter- concentration on the discharge ies. A comparison of conductance behaviour of PbO, electrodes, 231 testing with traditional methods, 391 electrolyte stratification in lead/acid Fuel cells batteries: Effect of grid antimony Nafion®-bound carbon electrodes and relationship to capacity loss, containing transition-metal phthalo- 239 cyanines for oxygen reduction in a simplified model of the lead/acid bat- solid-polymer-electrolyte fuel cells, 61 tery, 251 experimental study of the alkalization Glass microspheres model for the PbSO, anodic layer on modeling lead/acid batteries that have lead/acid positive-plate grids, 263 positive electrodes containing hollow, processes during preparation of lead/ glass microspheres, 39 acid battery positive plates from Gold tetrabasic lead sulfate (4BS) pastes, catalytic influence of underpotentially 269 deposited submonolayers of different performance characteristics of lead metals in ethylene glycol oxidation oxides in pasted lead/acid battery on various noble metal electrodes in electrodes, 285 alkaline medium, 17 lead alloys for maintenance-free and sealed lead/acid batteries, 327 Heat generation processes in positive lead/acid battery heat generation of electrochemical plates during soaking prior to systems Batteries, 29 formation, 337 effect of hydrogen and oxygen on Lead stability of expanders and perform- new aspects of the solid phase equilib- ance of lead/acid batteries, 349 ria in the ternary Pb—Sn—Ca system valve-regulated lead/acid batteries: for Xc,<25 at.%, 299 systems, properties and applications, Lead/acid batteries 361 modeling lead/acid batteries that have fast charging of lead/acid batteries, 375 positive electrodes containing hollow, Lead alloys glass microspheres, 39 lead alloys for maintenance-free and modeling the effects of electrolyte sealed lead/acid batteries, 327 diffusion and paste conductivity on Lead-antimony alloy lead/acid battery performance, 49 joining of lead—antimony and lead- aspects of lead/acid battery technology. calcium alloy lugs by a laboratory 6. Designing for capacity, 73 cast-on-strap process, 311 aspects of lead/acid battery technology. Lead-—calcium alloy 7. Separators, 117 joining of lead—antimony and lead- a lead/acid battery for the new calcium alloy lugs by a laboratory millennium, 159 cast-on-strap process, 311 suppression of premature capacity loss Lead dioxide by methods based on the gel-crystal the agglomerate-of-spheres model. concept of the PbO, electrode, 171 Theoretical considerations, 211 421 PbO, active material as an electro- Planté Medal Address crystalline network, 219 the Gaston Planté Medal Presentation Lead dioxide plates Address, 149 suppression of premature capacity loss the Gaston Planté Medal Address, 151 by methods based on the gel-—crystal Planté Medallist concept of the PbO, electrode, 171 Paul Ruetschi: The Gaston Planté Lead electrodes Medallist 1993, 147 influence of phosphoric acid on the Platinum electrochemistry of lead electrodes in catalytic influence of underpotentially sulfuric acid electrolyte containing deposited submonolayers of different antimony, 1 metals in ethylene glycol oxidation experimental study of the alkalization on various noble metal electrodes in model for the PbSO, anodic layer on alkaline medium, 17 lead/acid positive-plate grids, 263 Positive electrodes Lead hardening modeling lead/acid batteries that have new aspects of the solid phase equilib- positive electrodes containing hollow, ria in the ternary Pb-Sn—Ca system glass microspheres, 39 for Xc,<25 at.%, 299 Positive plates Lead oxide electrodes processes in positive lead/acid battery influence of recharge potential and acid plates during soaking prior to concentration on the discharge formation, 337 behaviour of PbO, electrodes, 231 Premature capacity loss Lead oxides suppression of premature capacity loss performance characteristics of lead by methods based on the gel-crystal oxides in pasted lead/acid battery concept of the PbO, electrode, 171 electrodes, 285 premature capacity loss in lead/acid Lead sulfate batteries with antimony-free grids processes during preparation of lead/ during cycling under constant-voltage- acid battery positive plates from charging conditions. 1. Characteriza- tetrabasic lead sulfate (4BS) pastes, tion and causes of the phenomenon, 269 19] location of the phenomena of prema- ture capacity loss during cycling of Nafion® lead/acid batteries with lead grids, Nafion®-bound carbon electrodes 203 containing transition-metal phthalo- electrolyte stratification in lead/acid cyanines for oxygen reduction in batteries: Effect of grid antimony solid-polymer-electrolyte fuel cells, 61 and relationship to capacity loss, 239 Proton-conducting electrolytes performance of a solid-state battery Palladium with a proton-conducting electrolyte, catalytic influence of underpotentially 65 deposited submonolayers of different metals in ethylene glycol oxidation on various noble metal electrodes in Separators alkaline medium, 17 Paste conductivity aspects of lead/acid battery technology. modeling the effects of electrolyte 7. Separators, 117 diffusion and paste conductivity on Simulation model lead/acid battery performance, 49 a simplified model of the lead/acid Phosphoric acid battery, 251 influence of phosphoric acid on the Soaking electrochemistry of lead electrodes in processes in positive lead/acid battery sulfuric acid electrolyte containing plates during soaking prior to antimony, 1 formation, 337 422 Solid polymer electrolyte sulfuric acid electrolyte containing Nafion®-bound carbon electrodes antimony, 1 containing transition-metal phthalo- cyanines for oxygen reduction in Tin solid-polymer-electrolyte fuel cells, 61 new aspects of the solid phase equilib- Solid-state batteries ria in the ternary Pb-Sn—Ca system performance of a solid-state battery for Xc,<25 at.%, 299 with a proton-conducting electrolyte, 65 Valve-regulated lead/acid batteries State-of-health a lead/acid battery for the new evaluating the state-of-health of flooded millennium, 159 and valve-regulated lead/acid batter- valve-regulated lead/acid batteries: ies. A comparison of conductance systems, properties and applications, testing with traditional methods, 391 361 Storage ten minutes-rechargeable, valve- ten minutes-rechargeable, valve- regulated, lead/acid battery after regulated, lead/acid battery after deep discharge and stand, 383 deep discharge and stand, 383 evaluating the state-of-health of flooded Sulphuric acid and valve-regulated lead/acid batter- influence of phosphoric acid on the ies. A comparison of conductance electrochemistry of lead electrodes in testing with traditional methods, 391

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