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  1. M. Dubarry, C. Truchot, B.Y. Liaw, K. Gering, S. Sazhin, D. Jamison, C. Michelbacher, “Evaluation of commercial lithium-ion cells based on composite positive electrode for plug-in hybrid electric vehicle applications. Part IV. Over-discharge phenomena at room to low temperatures,” to be submitted to J. Electrochem. Soc. (manuscript in revision)
  2. M. Dubarry, C. Truchot, B.Y. Liaw, K. Gering, S. Sazhin, D. Jamison, C. Michelbacher, “Evaluation of commercial lithium-ion cells based on composite positive electrode for plug-in hybrid electric vehicle applications. Part III. Aging through temperature excursions,” to be submitted to J. Electrochem. Soc. (manuscript in revision)
  3. M. Dubarry, C. Truchot, B.Y. Liaw, “Synthesize battery degradation modes via a diagnostic model,” to be submitted to J. Electrochem. Soc. (manuscript in revision)
  4. D.M. Scott, T.H. Tsang, L. Chetty, S. Aloi, B.Y. Liaw, “Mechanistic understanding of monosaccharide-air flow battery electrochemistry,” J. Power Sources, 196 (2011) 10556.
  5. M. Dubarry, C. Truchot, B.Y. Liaw, K.L. Gering, S.V. Sazhin, D.K. Jamison, C.J. Michelbacher, “Evaluation of commercial lithium-ion cells based on composite positive electrode for plug-in hybrid electric vehicle (PHEV) applications. Part II. Degradation mechanism under 2C cycle aging,” J. Power Sources, 196 (2011) 10336.
  6. M. Dubarry, C. Truchot, M. Cugnet, B.Y. Liaw, K.L. Gering, S.V. Sazhin, D.K. Jamison, C.J. Michelbacher, “Evaluation of commercial lithium-ion cells based on composite positive electrode for plug-in hybrid electric vehicle (PHEV) applications. Part I. Initial characterizations,” J. Power Sources, 196 (2011) 10328.
  7. K.L. Gering, S.V. Sazhin, D.K. Jamison, C.J. Michelbacher, B.Y. Liaw, M. Dubarry, M. Cugnet, “Investigation of path dependence in commercial lithium-ion cells chosen for plug-in hybrid vehicle duty cycle protocols,” J. Power Sources 196 (2011) 3395.
  8. M. Cugnet, B.Y. Liaw, “Effect of discharge rate on charging a lead-acid battery simulated by mathematical model,” J. Power Sources 196 (2011) 3414.
  9. M. Dubarry, B.Y. Liaw, M-S. Chen, S-S. Chyan, K-C. Han, W-T. Sie, S-H. Wu, “Identifying battery aging mechanisms in large format Li ion cells,” J. Power Sources 196 (2011) 3420.
  10. B.Y. Liaw, “Tackle hurdles in battery technology emerging in future smart applications,” Electrochemistry, 78 (2010) 317.
  11. M. Dubarry, N. Vuillaume, B.Y. Liaw, “Origins and accommodation of cell variations in Li-ion battery pack modeling,” Int. J. Energy Res. 34 (2010) 216–231.
  12. M. Dubarry, B.Y. Liaw, “Identify capacity fading mechanism in a commercial LiFePO4 Cell,” J. Power Sources 194 (2009) 541.
  13. D. Scott, B.Y. Liaw, “Harnessing electric power from monosaccharides ― A carbohydrate-air alkaline fuel cell mediated by redox dyes,” Energy Environ. Sci. 2 (2009) 965–969.
  14. M. Dubarry, N. Vuillaume, B.Y. Liaw, “From single cell model to battery pack simulation for Li-ion batteries,” J. Power Sources 186 (2009) 500–507.
  15. D. Scott, M.J. Cooney, B.Y. Liaw, “Sustainable current generation from the ammonia - polypyrrole interaction,” J. Mat. Chem. 18 (2008) 3216–3222.
  16. V. Svoboda, B.Y. Liaw, “In-situ transient study of polymer nano-film growth via simultaneous correlation of charge, mass, and ellipsometric measurements,” Pure Applied Chem. 80 (2008) 2439–2449.
  17. V. Svoboda, M. Cooney, B.Y. Liaw, S. Minteer, E. Piles, D. Lehnert, S. Calabrese Barton, R. Rincon, P. Atanassov, “Standardized characterization of electrocatalytic electrodes,” Electroanalysis 20 (2008) 1099.
  18. D.M. Sun, D. Scott, M.J. Cooney, B.Y. Liaw, “A potential reconstitution platform for PQQ-dependent apo-enzymes,” Electrochem. Solid State Lett. 11 (2008) B101.
  19. M.J. Cooney, C. Lau, M. Windmeisser, B.Y. Liaw, T. Klotzbach, S.D. Minteer, “Design of chitosan gel pore structure: towards enzyme catalyzed flow-through electrodes,” J. Mat. Chem. 18 (2008) 667.
  20. M. Dubarry, N. Vuillaume, B.Y. Liaw, T. Quinn, “Vehicle evaluation, battery modeling, and fleet-testing experiences in Hawaii: A roadmap to understanding evaluation data and simulation,” J. Asian Electric Vehicles 5 (2007) 1033−1042.
  21. P. Atanassov, C. Apblett, S. Banta, S. Brozik, S. Calabrese Barton, M. Cooney, B.Y. Liaw, S. Mukerjee, S.D. Minteer, “Enzymatic biofuel cell,” Interface 16 (2007) 28-31.
  22. S.D. Minteer, B.Y. Liaw, M.J. Cooney, “Enzyme-based biofuel cells,” Current Opinion in Biotechnology (invited), 18 (2007) 228-234.
  23. B.Y. Liaw, M. Dubarry, “From driving cycle analysis to understanding battery performance in real-life electric hybrid vehicle operation,” (invited) in the Special Issue on Hybrid Electric Vehicles, J. Power Sources 174 (2007) 76.
  24. M. Dubarry, V. Svoboda, R. Hwu, B.Y. Liaw, “A roadmap to understand battery performance in electric and hybrid vehicle operation,” J. Power Sources 174 (2007) 366.
  25. M. Dubarry, B.Y. Liaw, “Development of a universal modeling tool for rechargeable lithium batteries,” J. Power Sources 174 (2007) 856.
  26. M. Dubarry, V. Svoboda, R. Hwu, B.Y. Liaw, “Capacity loss in rechargeable lithium cells during cycle life testing: The importance of determining state-of-charge,” J. Power Sources 174 (2007) 1121.
  27. M. Dubarry, V. Svoboda, R. Hwu, B.Y. Liaw, “Capacity and power fading mechanism identification from a commercial cell evaluation,” J. Power Sources 165 (2007) 566-572.
  28. V. Svoboda, M.J. Cooney, C. Rippolz, B.Y. Liaw, “In-situ characterization of electrochemical polymerization of methylene green on platinum electrodes,” J. Electrochem. Soc. 154 (2007) D113-116.
  29. J.C. Viera, M. González, B.Y. Liaw, F.J. Ferrero, J.C. Álvarez, J.C. Campo, C. Blanco, “Characterization of 109 Ah Ni–MH batteries charging with hydrogen sensing termination,” J. Power Sources 171 (2007) 1040.
  30. A. Konash, M.J. Cooney, B.Y. Liaw, D.M. Jameson, “Characterization of enzyme-polymer interaction using fluorescence,” J. Materials Chem. 16 (2006) 4107.
  31. M. Dubarry, V. Svoboda, R. Hwu, B.Y. Liaw, “Incremental capacity analysis and close-to-equilibrium OCV measurements to quantify capacity fade in commercial rechargeable lithium batteries,” Electrochem. Solid-State Lett., 9 (2006) A454.
  32. D.M. Jenkins, B. Chami, M. Kreuzer, G. Presting, A.M. Alvarez, B.Y. Liaw, “Hybridization probe for femtomolar quantification of selected nucleic acid sequences on a disposable electrode,” Anal. Chem. 78 (2006) 2314.
  33. W. Johnston, N. Maynard, B.Y. Liaw, M.J. Cooney, “In situ measurement of activity and mass transfer effects in enzyme immobilized electrodes,” Enzyme and Microbial Technology 39 (2006) 131.
  34. H. Wenzl, I. Baring-Gould, R. Kaiser, B.Y. Liaw, P. Lundsager, J. Manwell, A. Ruddell, V. Svoboda, “Life prediction of batteries for selecting the technically most suitable and cost effective battery,” J. Power Sources 144 (2005) 373.
  35. M. Dubarry, M. Bonnet, B. Dailliez, A. Teeters, B.Y. Liaw, “Analysis of electric vehicle usage of a Hyundai Santa Fe fleet in Hawaii,” J. Asian Electric Vehicles 3 (2005) 657-663.
  36. B.Y. Liaw, R.G. Jungst, G. Nagasubramanian, H.L. Case, D.H. Doughty, “Modeling capacity fade in lithium-ion cells,” J. Power Sources 140 (2005) 157.
  37. W.A. Johnston, B.Y. Liaw, R. Sapra, M.W.W. Adams, M.J. Cooney, “Design and characterization of redox enzyme electrodes: New perspectives on established techniques with application to an extremeophilic hydrogenase,” Enzyme and Microbial Technology 36 (2005) 540.
  38. B.Y. Liaw, “Fuzzy-logic based driving pattern recognition for driving cycle analysis,” J. Asian Electric Vehicles 2 (2004) 551.
  39. B.Y. Liaw, G. Nagasubramanian, R.G. Jungst, D.H. Doughty, “Modeling of lithium ion cells,” Solid State Ionics 175 (2004) 835.
  40. X.G. Yang, B.Y. Liaw, “Numerical simulation on fast charging Ni-MH traction batteries,” J. Electrochem. Soc. 151 (2004) A265.
  41. X.G. Yang, B.Y. Liaw, “Self-discharge and charge retention in AB2-based Ni-MH batteries,” J. Electrochem. Soc. 151 (2004) A137.
  42. B.Y. Liaw, R.G. Jungst, E.P. Roth, G. Nagasubramanian, H.L. Case, D.H. Doughty, “Correlation of Arrhenius behaviors on power and capacity fades, impedance, and static heat generation in lithium ion cells,” J. Power Sources 119-121 (2003) 874.
  43. R.G. Jungst, G. Nagasubramanian, H.L. Case, B.Y. Liaw, A. Urbina, T.L. Paez, D.H. Doughty, “Accelerated calendar and pulse life analysis of lithium-ion cells,” J. Power Sources 119-121 (2003) 870.
  44. B.Y. Liaw, X.G. Yang, K. Bethune, “Integrated battery simulation and characterization,” Solid State Ionics 152-153 (2002) 217.
  45. B.Y. Liaw, X.G. Yang, “Reliable fast charge of nickel metal hydride batteries,” Solid State Ionics 152-153 (2002) 51.
  46. B.Y. Liaw, K.P. Bethune, X.G. Yang, “Advanced integrated battery testing and simulation,” J. Power Sources 110 (2002) 330.
  47. A. Urbina, T.L. Paez, R.G. Jungst, B.Y. Liaw, “Inductive modeling of lithium-ion cells,” J. Power Sources 110 (2002) 430.
  48. B.Y. Liaw, X.G. Yang, “Limiting process and mechanism in rapid charging Ni-MH cells,” Electrochimica Acta 47 (2001) 875.
  49. X.G. Yang, B.Y. Liaw, “In-situ electrochemical investigations of the kinetic and thermodynamic properties of nickel-metal hydride traction batteries,” J. Power Sources 102 (2001) 186.
  50. X.G. Yang, B.Y. Liaw, “Rapid charge of traction nickel metal hydride batteries,” J. Power Sources 101 (2001) 158.
  51. X.G. Yang, B.Y. Liaw, “Charge performance of a commercial nickel metal hydride EV battery system,” J. Electrochem. Soc. 148 (2001) A1023.
  52. T. Quinn, B.Y. Liaw, “Electric vehicle rapid charging infrastructure in Hawaii,” SAE Technical Paper 2000-01-1606, IEEE Transactions J. Engines (2001).
  53. W.B. Gu, C.Y. Wang, S.M. Li, M.M. Geng, B.Y. Liaw, “Modeling discharge and charge characteristics of nickel-metal hydride batteries,” Electrochimica Acta 44 (1999) 4525.
  54. W.B. Gu, C.Y. Wang, B.Y. Liaw, “Micro-macroscopic coupled modeling of batteries and fuel cells, II. application to nickel-cadmium and nickel-metal hydride cells,” J. Electrochem. Soc. 145 (1998) 3418.
  55. C.Y. Wang, W.B. Gu, B.Y. Liaw, “Micro-macroscopic coupled modeling of batteries and fuel cells, I. model development,” J. Electrochem. Soc. 145 (1998) 3407.
  56. W.B. Gu, C.Y. Wang, B.Y. Liaw, “The use of computer simulation in the evaluation of electric vehicle batteries,” J. Power Sources 75 (1998) 151.
  57. W.B. Gu, C.Y. Wang, B.Y. Liaw, “Numerical modeling of coupled electrochemical and transport processes in lead-acid batteries,” J. Electrochem. Soc. 144 (1997) 2053.
  58. B.Y. Liaw, R.E. Rocheleau, Q-H. Gao, “Thin film yttria-stabilized tetragonal zirconia,” Solid State Ionics 92 (1996) 85.
  59. B.Y. Liaw, G. Deublein, R.A. Huggins, “Electrochemical studies of kinetic properties of titanium- and vanadium-hydrogen systems at intermediate temperatures using molten salt techniques,” J. Electrochem. Soc. 142 (1995) 2196.
  60. X.Z. Li, G.S. Huang, D.W. Mo, B.Y. Liaw, “The analysis of the neutron emission from the glow discharge in deuterium gas tube and the gas loading in palladium,” Trans. Fusion Tech. 26 (1994) 384.
  61. B.Y. Liaw, Y. Ding, “Charging hydrogen into Ni in hydride-containing molten salts,” Trans. Fusion Tech. 26 (1994) 63.
  62. B.Y. Liaw, P-L Tao, B.E. Liebert, “Helium analysis of palladium electrodes after molten-salt electrolysis,” Fusion Technology 23 (1993) 92.
  63. B.Y. Liaw, G. Deublein, R.A. Huggins, “Investigation of thermodynamic properties of the Ti-H system using molten salt electrolytes containing hydride ions,” J. Alloys and Compounds 189 (1992) 175.
  64. B.Y. Liaw, J. Liu, A. Menne, W. Weppner, “Kinetic principles for new types of solid state ionic gas sensors,” Solid State Ionics 53-56 (1992) 18.
  65. B.Y. Liaw, P-L. Tao, P. Turner, B.E. Liebert, “Elevated-temperature excess heat production in the Pd-D system,” J. Electroanal. Chem. 319 (1991) 161; err. 332 (1992) 371.
  66. B.Y. Liaw, W. Weppner, “Low temperature limiting-current oxygen sensors based on tetragonal zirconia polycrystals,” J. Electrochem. Soc. 138 (1991) 2478.
  67. B.Y. Liaw, I.D. Raistrick, R.A. Huggins, “Thermodynamic and structural considerations of insertion reactions in lithium vanadium bronze structures,” Solid State Ionics 45 (1991) 323.
  68. B.Y. Liaw, W. Weppner, “Low temperature limiting-current oxygen sensors using tetragonal zirconia as solid electrolytes,” Solid State Ionics 40/41 (1990) 428.
  69. B.Y. Liaw, R.A. Huggins, “Demonstration of a composite solid/liquid/ solid electrolyte configuration for hydrogen-related applications,” Z. Chem. Phys. N. F. 164 (1989) 1533.
  70. G. Deublein, B.Y. Liaw, R.A. Huggins, “Novel electrochemical hydrogen sensors for use at elevated temperatures,” Solid State Ionics 28/30 (1988) 1660.
  71. G. Deublein, B.Y. Liaw, R.A. Huggins, “Hydrogen-conducting electrolyte configurations,” Solid State Ionics 28/30 (1988) 1084.
  72. G. Deublein, B.Y. Liaw, R.A. Huggins, “Controlled electrolyte environments and their use for studying and modifying materials properties; potentials for employment in practical devices,” Solid State Ionics 28/30 (1988) 1078.
  73. B.Y. Liaw, S.W. Orchard, C. Kutal, “Photobehavior of copper(I) compounds. 4. Role of the triplet-state of (arylphosphine)-copper(I) complexes in the photosensitized isomerization of dienes,” Inorg. Chem. 27(8) (1988) 1309.
  74. B.Y. Liaw, I.D. Raistrick, R.A. Huggins, “The thermodynamics and kinetics of the gamma-lithium vanadium bronze structure,” Solid State Ionics 18/19 (1986) 828.

For more information contact Bor Yann Liaw [1]. [1]


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