Non-Aqueous and Organic-Based Systems

Tuesday, 30 May 2017: 08:00-12:20
Grand Salon B - Section 12 (Hilton New Orleans Riverside)
Chairs:
Mike L. Perry and Michael J. Aziz
08:00
161
High Capacity Electrolytes for Non-Aqueous Redox Flow Batteries – a Positive Focus
A. P. Kaur (University of Kentucky), J. A. Kowalski (Joint Center for Energy Storage Research), M. Casselman (University of California, Riverside), J. D. Milshtein (Joint Center for Energy Storage Research), C. F. Elliott, S. Modekrutti, N. Zhang, H. A. Attanayake, C. Risko (University of Kentucky), F. R. Brushett (Joint Center for Energy Storage Research), and S. A. Odom (University of Kentucky)
08:20
162
Doubling up: Increasing Charge Storage in Organic Donors and Acceptors for Non-Aqueous Redox Flow Batteries
S. A. Odom, A. P. Kaur, M. D. Casselman (University of Kentucky), J. D. Milshtein, J. A. Kowalski (Joint Center for Energy Storage Research), C. F. Elliott, S. R. Parkin, C. Risko, J. Anthony (University of Kentucky), and F. R. Brushett (Joint Center for Energy Storage Research)
08:40
163
Highly Stable Hydroquinone Ether-Based Catholyte for Non-Aqueous Redox Flow Batteries
J. Zhang, I. A. Shkrob (Argonne National Laboratory), S. O. Tung (University of Michigan), W. Duan (Joint Center for Energy Storage Research), B. Hu (Argonne National Laboratory), L. T. Thompson (University of Michigan), X. Wei (Joint Center for Energy Storage Research), Z. Zhang (Argonne National Laboratory), and L. Zhang (Joint Center for Energy Storage Research (JCESR))
09:00
164
Direct Visualization of Electrochemical Reactions in Porous Electrodes By Fluorescence Microscopy Using a Quinone-Based Flow Battery
A. A. Wong, M. J. Aziz, and S. Rubinstein (Harvard School of Engineering and Applied Sciences)
09:20
165
Dissection of the Voltage Losses of an Acidic Quinone Redox Flow Battery
M. J. Aziz, Q. Chen, and M. R. Gerhardt (Harvard School of Engineering and Applied Sciences)
09:40
Break
10:00
166
Investigation of Ionic Conductivity, Uptake and Cation Diffusion of Perfluorsulfonate and Sulfonated Block Copolymer Ion Exchange Membrane in Non-Aqueous Solvents
K. Lou (University of Tennessee, Knoxville, TN, Oak Ridge National Laboratory, Oak Ridge, TN), J. Peng (University of Tennessee, Knoxville, TN), Z. Tang (Oak Ridge National Laboratory, Oak Ridge, TN), C. Fujimoto (Sandia National Laboratory), and T. A. Zawodzinski Jr. (University of Tennessee, Knoxville, TN, Oak Ridge National Laboratory, Oak Ridge, TN)
10:20
167
Cross-Conjugated Oligomer Based Organic Batteries for Energy Storage
Y. Jing, Y. Liang, S. Gheytani, and Y. Yao (University of Houston)
10:40
168
Redox Flow Batteries Based on Aqueous Soluble Organics and Mechanistic Diagnostics of Capacity Fading
X. Wei, W. Wang, A. Hollas, B. Li, Z. Nie, M. Vijayakumar, D. Reed, and V. Sprenkle (Pacific Northwest National Laboratory)
11:00
169
Macromolecular Design Strategies for Long-Lived and Energy Efficient All-Organic Redox-Flow Batteries
B. A. Helms (Lawrence Berkeley National Laboratory), S. E. Doris, A. L. Ward, P. D. Frischmann, A. Baskin, D. Prendergast (Joint Center for Energy Storage Research), N. Gavvalapalli (University of Illinois at Urbana-Champaign), E. Chenard (Department of Chemistry), C. S. Sevov (University of Michigan), and J. S. Moore (Joint Center for Energy Storage Research, USA)
11:20
170
A High Energy-Density, Low-Cost Hybrid Organic Flow Battery
C. Zhang, T. Zhao (The Hong Kong University of Science and Technology), and Q. Chen (Harvard School of Engineering and Applied Sciences)
11:40
171
Performance of a Non-Aqueous Flow Battery System with a Mushroom-Derived Electrolyte
E. Agar (University of Massachusetts Lowell), P. J. Cappillino (University of Massachusetts Dartmouth), M. Nourani (University of Massachusetts Lowell), H. Huang, and R. Howland (University of Massachusetts Dartmouth)
12:00
172
Exploring Rate Capabilities of Symmetric Nonaqueous Redox Flow Batteries
J. D. Saraidaridis and C. W. Monroe (Department of Engineering Science, University of Oxford)
See more of: A02: Large-Scale Energy Storage 8
See more of: Batteries and Energy Storage
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