Lithium-Air 1

Thursday, 17 May 2018: 08:00-12:00
Room 609 (Washington State Convention Center)
Chairs:
Honorio Valdes-Espinosa and Helmut Baltruschat
08:20
575
Improving Cathode and Electrolyte Stability in Lithium-Oxygen Batteries
D. A. Dornbusch (Case Western Reserve University, NASA Glenn Research Center), F. W. Dynys (NASA Glenn Research Center), B. Radhakrishnan (NASA-Ames Research Center, AMA Inc), R. Viggiano (NASA Glenn Research Center), and J. W. Lawson (NASA Ames Research Center)
08:40
576
Insights into the Kinetics of Redox Mediation for Li-O2 Batteries: A Dems and RRDE Study
P. P. Bawol, J. H. Thimm (Universität Bonn), and H. Baltruschat (University of Bonn)
09:20
578
Understanding the Role of Solvent and Added Water on the Effectiveness of Lithium Iodide As a Redox Mediator in Lithium Oxygen Batteries
G. Leverick, M. Tulodziecki, Y. Katayama, R. Tatara (Massachusetts Institute of Technology), S. Feng (ChemE/Massachusetts Institute of Technology), F. Bardé (Toyota Motor Europe), and Y. Shao-Horn (Massachusetts Institute of Technology)
09:40
Break
10:00
579
Tuning Graphene Pore Size for Improved Performance in Na-O2 Batteries
M. Enterria, C. Botas (CIC EnergiGUNE), B. Acebedo (CICenergiGUNE), J. M. López del Amo (CIC EnergiGUNE), D. Carriazo (CIC EnergiGUNE, Ikerbasque), T. Rojo (CIC energiGUNE, University of the Basque Country), and N. Ortiz Vitoriano (CIC EnergiGUNE, Ikerbasque)
10:20
580
Enhanced Stability of Coated Carbon Electrode for Li–O2 Batteries and Its Limitations
Y. Bae (Seoul National University), S. Lee (Konkuk University), H. D. Lim (University of California, San Diego), H. Park (Seoul National University), Y. S. Min (Konkuk University), and K. Kang (Seoul National University)
10:40
581
Characterization of Charge Reactions of Li-Air Battery Cathodes Studied with Field Ionization Methods
H. Valdes-Espinosa, S. B. Adler, and E. M. Stuve (University of Washington)
 
582
Strategies to Facilitate the Electron Transfer in Li-O2 Battery Charging Process (Cancelled)
11:20
583
Lithium-Oxygen Batteries with Ultrahigh Areal Capacities: Critical Roles of Air Cathode Architecture
Y. Lin, J. W. Kim (National Institute of Aerospace), and J. W. Connell (NASA Langley Research Center)
11:40
584
Critical Indicator Determining the Discharge Capacity of Li-Oxygen Batteries
Y. Hase (Toyota Central R&D Labs., Inc.), Y. Komori (Osaka University), J. Seki, T. Shiga (Toyota Central R&D Labs., Inc.), K. Kamiya, and S. Nakanishi (Osaka University)