A05 Poster Session

Monday, 1 October 2018: 18:00-20:00
Universal Ballroom (Expo Center)
332
Novel Poreless Inorganic Separator for Blocking Polysulfide Shuttle Effect in Lithium Sulfur Battery
J. Cho, Y. J. Gong, S. Lee, G. Yoo, J. Yoo, and Y. S. Kim (Seoul National University)
333
A Study on Overcoming the Inert Capacity of Polymer Sulfide Electrode with Conducting Materials
J. Park, S. Kim, D. Jin (Hanbat National University), J. Oh (Hanbat national Unveristy), B. Yoon, J. Choi, H. Jo (Hanbat National University), Y. M. Lee (DGIST), and M. H. Ryou (Hanbat National University)
335
Electrochemical Behavior of Spinel Oxide during Magnesium Ion Insertion/Extraction Reactions at Moderate Temperature
S. Otani, K. Yamamoto (Graduate School of Human and Environmental Studies, Kyoto University), T. Uchiyama (Graduate School of Human and Environmental Studies, Human and Environmental Studies, Kyoto University), T. Ichitsubo (Institute for Materials Research, Tohoku University), and Y. Uchimoto (Graduate School of Human and Environmental Studies, Kyoto University)
336
Tuning MnOx Phase in GO@MnOx Composites Using Heat-Treatments to Improve Lithium Ion Battery Performances
W. Jung, S. Lee (Gwangju Institute of Science and Technology), H. I. Joh (Konkuk University), K. Eom (Gwangju Institute of Science and Technology), and T. F. Fuller (School of Chemical & Biomolecular Engineering)
338
Fluorinated Solvent Based Electrolytes for Lithium-Sulfur Batteries
R. Bouchal, A. Boulaoued (Department of Physics, Chalmers University of Technology), and P. Johansson (Department of Physics, Chalmers University of Technology, ALISTORE European Research Institute)
339
Micro-Spherical Na0.65[Ni0.17Co0.11Mn0.72]O2 Cathode Material for High-Performance Sodium-Ion Batteries
T. Y. Yu and Y. K. Sun (Department of Energy Engineering, Hanyang University)
342
Improving the Performance of MoSx/r-GO Cathode Materials for Lithium-Ion Battery Via an in-Situ Electrochemical Method
U. Chang, H. Lee (Gwangju Institute of Science and Technology (GIST)), H. I. Joh (Konkuk University), K. Eom (Gwangju Institute of Science and Technology), and T. F. Fuller (School of Chemical & Biomolecular Engineering)
343
In-Situ Electrochemical Formation of Protective SEI on Sulfur-Carbon Cathode to Improve the Stability of a RT-Sodium Sulfur Battery
H. Lee, U. Chang (Gwangju Institute of Science and Technology (GIST)), and K. Eom (Gwangju Institute of Science and Technology)
344
Electronic and Ionic Conductivity of Nanocrystalline Sodium Peroxide
M. Philipp (Institut for Chemistry and Technology of Materials), S. Lunghammer (Graz University of Technology), I. Hanzu (Graz University of Technology, ICTM), and M. Wilkening (Institute for Chemistry and Technology of Materials, Christian Doppler Laboratory for Lithium Batteries)
345
Fast Ion Conducting Solid-State Electrolytes for Sodium Ion Batteries — from Elementary Steps to Macroscopic Transport
S. Lunghammer (ICTM, Graz University of Technology, Graz University of Technology) and M. Wilkening (Graz University of Technology, ICTM)
346
Effect of Interfacial Cations of MnO2 Nanosheet-Based Catalystson Air-Electrode Reaction for Rechargeable Li-Air Batteries
K. Mikami (Department of Applied Chemistry, Tokyo University of Agriculture & Technology), Y. Tachikawa, T. Ishikawa, T. Fujinami, and M. Saito (Department of Applied Chemistry, Tokyo University of Agriculture and Technology)
347
Enhancement of Bifunctional Effect of NO3- Anion By Using Glyme-Based Dual Solvent Electrolytes for Li-Air Batteries
S. Ishii, S. Yamada (Tokyo University of Agriculture & Technology), T. Ishikawa, T. Fujinami (Tokyo University of Agriculture and Technology), Y. Hayashi (Tokyo University of Agriculture & Technology), H. Otsuka (National Institute for Materials Science (NIMS)), K. Ito, Y. Kubo (National Institute for Materials Science), and M. Saito (Department of Applied Chemistry)
348
An Organic Electrolyte Additive for the Suppression of Li Dendrite in Li Metal Based Batteries
H. S. Kim, P. N. Didwal, and C. J. Park (Chonnam National University)
349
Composite of Vn/Carbon Nanofibers As a Protective Layer on Cathode for High Performance Li-S Batteries
H. B. Kim, D. T. Ngo, and C. J. Park (Chonnam National University)
350
Nanoporous Carbon Coated Sb Anode for High Performance K-Ion Batteries
R. Verma, H. S. Ki, and C. J. Park (Chonnam National University)
351
Nucleation and Surface Passivation in Li-Air Batteries
C. Shen (Florida State University), P. Andrei (FAMU-FSU College of Engineering), and J. P. Zheng (Florida State University)
352
Internal Parameters Identification for Equivalent Electrical Circuit Model Design of an Al-Ion Cell
D. Lee, Y. Tak (Department of Chemical Engineering, Inha University), and J. Kim (Department of EE, Chungnam National University)
354
Post-Cycling Surface Analysis of Li2s-FeS Composite Positive Electrode
E. Yamauchi (National Institute of, Advanced Industrial Science and Technology), T. Takeuchi, and H. Sakaebe (AIST)
356
A Strategy to Solve the Problem of Initial Charge Irreversibility in P2-Type Layered Cathode Materials for Sodium-Ion Battery
S. I. Kim, G. G. Park (Korea Automotive Technology Institute), D. Y. Lee (Korea Automotive Technology Institiute), and J. Y. Eom (Korea Automotive Technology Institute)
357
Organic Electrolyte Dependent Electrochemical Performance of Lithium metal anode Materials for Lithium-Metal Batteries
D. Y. Lee (Korea Automotive Technology Institiute), S. I. Kim, G. G. Park, and J. Y. Eom (Korea Automotive Technology Institute)
358
Advanced Energy Storage System with Graphite/Copper Oxide Composite for High Energy Density
S. Lee, Y. J. Gong, G. Yoo, J. Cho, J. Yoo, and Y. S. Kim (Seoul National University)
359
The Preparation of NaCrO2 and Biomasss-Derived Hard Carbon for Sodium-Ion Batteries
X. Liu, W. Sun, J. Mao, and G. Shao (Zhengzhou University)
362
A Single Electrolyte-Type Zinc/Iodine Redox System for an Aqueous Flow Battery
S. Ito, M. Sugimasa (Hitachi, Ltd.), Y. Toshimitsu, A. Orita, M. Sakai, and M. Kitagawa (Hitachi Chemical Co., Ltd.)
364
Layered Li-Rich Oxide Cathode with High Rate Capability By Reductive Treatment
D. S. Jung (Korea Institute of Ceramic Engineering & Technology)