Establishing substitution rules of functional groups for high-capacity organic anode materials in Na-ion batteries
By Holguin, Kathryn; Qin, Kaiqiang; Kamphaus, Ethan Phillip; Chen, Fu; Cheng, Lei; Xu, Gui-Liang; Amine, Khalil; Luo, Chao
Published in Journal of Power Sources
2022
Abstract
Tailoring molecular structures of organic electrode materials (OEMs) can enhance their performance in Na-ion batteries, however, the substitution rules and the consequent effect on the specific capacity and working potential remain elusive. Herein, by examining three sodium carboxylates with selective N substitution or extended conjugation structure, we exploited the correlation between structure and performance to establish substitution rules for high-capacity OEMs. Our results show that substitution position and types of functional groups are essential to create active centers for uptake/removal of Na+ and thermodynamically stabilize organic structures. Furthermore, rational host design and electrolytes modulation were performed to extend the cycle life to 500 cycles. A full cell based on the optimal 2,2′-bipyridine-4,4′-dicarboxylic acid disodium salt anode and the polyaniline cathode is demonstrated to confirm the feasibility of achieving all-organic batteries. This work provides a valuable guideline for the design principle of high-capacity and stable OEMs for sustainable energy storage.