Flow Batteries 2

Sunday, 1 October 2017: 14:00-18:00
Maryland D (Gaylord National Resort and Convention Center)
Chairs:
Jean St-Pierre and Shohji Tsushima
14:00
11
Optimizing the Design of Redox Flow Battery Electrodes Using Impedance Measurements
A. Murali, B. Yang, and S. R. Narayanan (University of Southern California)
14:20
12
Towards Better Utilization Ratios of Active Materials in Redox Flow Batteries
W. Duan (Joint Center for Energy Storage Research), B. Li, D. Lu (Pacific Northwest National Laboratory), X. Wei (Joint Center for Energy Storage Research), Z. Nie, V. Murugesan, J. Kizewski, A. Hollas, D. Reed, V. Sprenkle (Pacific Northwest National Laboratory), and W. Wang (Joint Center for Energy Storage Research (JCESR))
14:40
13
Redox Flow Batteries Based on Aqueous Soluble Organics
X. Wei (Joint Center for Energy Storage Research, Pacific Northwest National Laboratory), A. Hollas (Pacific Northwest National Laboratory), Z. Yang (Joint Center for Energy Storage Research, Pacific Northwest National Laboratory), J. Huang (Argonne National Laboratory, Joint Center for Energy Storage Research), W. Duan (Joint Center for Energy Storage Research, Pacific Northwest National Laboratory), B. Li, Z. Nie, E. Walter (Pacific Northwest National Laboratory), M. Vijayakumar (Pacific Northwest National Laboratory, Joint Center for Energy Storage Research), D. Reed (Pacific Northwest National Laboratory), Z. Zhang (Joint Center for Energy Storage Research, Argonne National Laboratory), W. Wang, and V. Sprenkle (Pacific Northwest National Laboratory)
15:00
14
Toward Soluble, Stable Organic Electroactive Materials for Non-Aqueous Redox Flow Batteries
S. A. Odom, A. P. Kaur, H. A. Attanayake, 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)
15:20
15
Aqueous Organic Redox Flow Batteries (AORFBs) for Sustainable and Safe Renewable Energy Storage
B. Hu (Utah State University), C. DeBruler (Utah State Univeristy), and T. Liu (Utah State University)
15:40
16
Organic Anolyte Species for Aqueous Redox Flow Batteries
A. Hollas, X. Wei, B. Li, W. Duan, Z. Nie, V. Murugesan, J. Kizewski, D. Reed, W. Wang, and V. Sprenkle (Pacific Northwest National Laboratory)
16:00
Break
16:20
17
Ambient Temperature Aqueous Sulfur Batteries for Ultralow Cost Grid Storage
Z. Li (Massachusetts Institute of Technology, Virginia Tech), M. Pan, L. Su, P. C. Tsai, J. M. Valle, A. F. Badel, S. L. Eiler, F. R. Brushett, and Y. M. Chiang (Massachusetts Institute of Technology)
16:40
18
A Low-Cost, High-Performance Polysulfide/Ferrocyanide Redox Flow Battery Using Highly Active Metal Pyrites Catalysts
W. Li (University of Wisconsin-Madison), Y. Dong (University of Wisconsin-Madison, Wuhan University of Technology), and S. Jin (Department of Chemistry, UW-Madison)
17:00
19
Illuminating Heterogeneous Mass Transport in Commercial Porous Electrodes for Aqueous Flow Batteries By Fluorescence Microscopy
A. A. Wong, S. Rubinstein, and M. J. Aziz (Harvard School of Engineering and Applied Sciences)
17:20
20
Characterization of the Efficiency Losses in the Minimal Architecture Zinc-Bromine Battery
K. W. Knehr, S. Biswas, H. Huynh (Princeton University), and D. A. Steingart (MAE/ACEE Princeton University)
17:40
21
Unlocking the Capacity of Iodide for High-Energy-Density Polyiodide-Based Redox Flow Batteries
G. M. Weng, Z. Li, G. Cong, Y. Zhou, and Y. C. Lu (The Chinese University of Hong Kong)