Liquid/Polymer Solid-State Electrolytes
- Advanced Lithium-Ion Battery Technology: High-Voltage Electrolyte (Joe Sunstrom, Ron Hendershot, and Alec Falzone, Daikin)
- Multi-Functional, Self-Healing Polyelectrolyte Gels for Long-Cycle-Life, High-Capacity Sulfur Cathodes in Lithium-Sulfur Batteries (Alex Jen and Jihui Yang, University of Washington)
- Construct and Test Lithium-Metal/Composite Electrolyte/Lithium-Metal Symmetric Cells (Nianqiang (Nick) Wu, West Virginia University; Xiangwu Zhang, North Carolina State University)
- High Conductivity and Flexible Hybrid Solid-State Electrolyte (Eric Wachsman, Liangbing Hu, and Yifei Mo, University of Maryland)
- Self-Forming Thin Interphases and Electrodes Enabling 3D Structured High-Energy-Density Batteries (Glenn Amatucci, Rutgers University)
- Dual Function Solid-State Battery with Self-Forming, Self-Healing Electrolyte and Separator (Esther Takeuchi, Stony Brook University)
- High-Conductivity, Low-Temperature Polymer Electrolytes for Lithium-Ion Batteries (Bryan D. McCloskey, University of California at Berkeley)
- Advanced Polymer Materials for Batteries (Zhenan Bao and Yi Cui, Stanford University)
- Improving the Stability of Lithium-Metal Anodes and Inorganic-Organic Solid Electrolytes (Nitash Balsara, Lawrence Berkeley National Laboratory)
- Electrolyte/Binder for High Efficiency Lithium-Sulfur Battery: New Materials Design and Computation (Larry A. Curtiss, Zhengcheng Zhang, and Ahn Ngo, Argonne National Laboratory)