(577a) Bioinspired Nanoporous Ion Conducting Membranes for Next Generation Batteries
AIChE Annual Meeting
2021
2021 Annual Meeting
Engineering Sciences and Fundamentals
Lithium and Beyond: Fundamental Advances in High Performance Batteries I
Thursday, November 11, 2021 - 8:15am to 8:30am
Bio-inspired ion transport membranes have been widely investigated for energy storage applications. High theoretical specific energy density (2600Wh/kg) and high specific capacity (1675mA/g) along with natural abundance and low toxicity of sulfur have been attracting significant attention for development of an alternative battery system to replace traditional lithium ion batteries which suffer from safety and capacity/energy density limitations in various applications. However, challenges such as poly sulfide dissolution and shuttling prevent mass commercialization of metal sulfur batteries. Inspired from biological ion transport mechanisms, we show a practical yet comprehensive approach for development of high-performance metal sulfur batteries. Aramid nanofiber (ANF) based composite ion transport membranes not only prevent dendrite formation but also confine poly sulfides on the cathode side. ANF composite battery separators provide diverse and opposing properties including high mechanical properties, high ionic conductivity and high thermal/chemical stability. Highly selective ion sieving properties of these bio-mimetic separators provide safe and high-performance batteries. Fabrication of such bio-compatible, affordable, flexible and high energy density battery is quite crucial in powering next-generation electronics including but not limited to portable, wearable and implantable biomedical devices.