Lithium Sulfur

Wednesday, 4 October 2017: 13:30-18:30
Maryland A (Gaylord National Resort and Convention Center)
Chairs:
David Mitlin and Tylan S Watkins
13:30
465
Rational Design of High-Loading Cathodes for Lithium Sulphur Batteries
H. Wang, B. Adams (Joint Center for Energy Storage Research (JCESR), Pacific Northwest National Laboratory), H. Pan (JCESR, Pacific Northwest National Laboratory), L. Estevez, J. Zheng, D. Lu, S. Chen (Pacific Northwest National Laboratory), Y. Shao (Joint Center for Energy Storage Research (JCESR), Pacific Northwest National Laboratory), W. Xu (Pacific Northwest National Laboratory), and J. G. Zhang (Joint Center for Energy Storage Research (JCESR), Pacific Northwest National Laboratory)
13:50
466
A Systematic Study of the Correlation between Solvent Properties and Sulfur Redox Behaviors in Li-S Batteries
Q. He, Y. Gorlin, M. U. M. Patel (Technical University of Munich), H. A. Gasteiger (Technical University of Munich, Chemistry department), and Y. C. Lu (The Chinese University of Hong Kong)
14:10
467
Predicting Lithium Polysulfide Solubility and Reaction Pathway Using a Unique Donicity Scale for Li-S Electrolytes
T. S. Watkins (Sandia National Labs, Joint Center for Energy Storage Research) and K. R. Zavadil (Material, Physical and Chemical Sciences Center)
14:30
468
Solid State Electrolytes and Composite Cathodes for Li-S Batteries
B. E. Henslee (Cornerstone Research Group, Inc.), J. Kumar, P. Bhattacharya (University of Dayton Research Institute), and F. Zalar (Cornerstone Research Group)
14:50
469
Synthesis and Electrochemical Property of I-4 Type Li1+2xZn1-XPS4 Solid Electrolyte
N. Suzuki (Samsung R&D Institute Japan), W. D. Richards (Massachusetts Institute of Technology), Y. E. Wang (Samsung Advanced Institute of Technology-USA), L. J. Miara (Samsung Research America), J. C. Kim (Lawrence Berkeley National Laboratory), I. S. Jung (Samsung Advanced Institute of Technology), T. Tsujimura (Samsung R&D Institute Japan), and G. Ceder (University of California, Berkeley)
15:10
470
(Battery Division Technology Award) Requirements and Approaches for Next Generation Battery Technologies for Energy Storage and Transportation
J. Liu (Pacific Northwest National Laboratory)
15:50
471
High Energy Density Lithium/Sulfur Batteries for NASA and DoD Applications
R. V. Bugga (Jet Propulsion Laboratory, California In), S. C. Jones, J. P. Jones, J. Pasalic (NASA/Jet Propulsion Laboratory/Caltech), F. C. Krause (JPL/Caltech), M. A. Hendrickson, and E. J. Plichta (Army Power Division, RDER-CCA)
16:10
Intermission
16:30
472
Microstructural Limitations in Lithium-Sulfur Battery Performance
A. Mistry and P. P. Mukherjee (Texas A&M University)
16:50
473
Energy Density Limitation of Lithium-Sulfur Battery By Lithium Polysulfide Solubility in Electrolyte
J. P. Zheng, C. Shen, J. Xie, M. Zhang (Florida State University), P. Andrei (Florida A&M University and Florida State University), M. A. Hendrickson, and E. J. Plichta (Army Power Division, RDER-CCA)
17:10
474
Incorporation of Nickel Sulfide into Sulfur Cathode for Li–S Battery
Z. LI, K. Ueno, K. Dokko, and M. Watanabe (Yokohama National University)
17:30
475
Improved Solid Electrolyte Interface on Lithium Metal Using High-Sulfur-Content Polymers
M. J. Regula and D. Wang (The Pennsylvania State University)
17:50
476
Exceptional Energy and New Insight with Sodium – Selenium Battery Based on Carbon Nanosheet Cathode and Pseudographite Anode
D. Mitlin (Clarkson University)
18:10
477
A Robust Glass Fiber Based Free Standing Composite Electrode for Lithium-Polysulfide Batteries
P. Ragupathy (Korea Advanced Institute of Science and Technology), S. Abdul Ahad (UNIST), H. W. Lee (Ulsan National Institute of Science and Technology), and D. K. Kim (Korea Advanced Institute of Science and Technology)
See more of: A05: Battery Materials: Beyond Li-Ion
See more of: Batteries and Energy Storage
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