Dispersing LiCl in Zwitterionic COF for Highly Efficient Ammonia Storage and Separation
Yu Fu, Yue Wu, Jiahui Zeng, Shanshan Wang, Xiaoyu Li, Wenxiang Zhang, Heping Ma
Abstract
Abstract Efficient and inherently safe NH 3 storage and separation are of significant importance for the chemical industry. Herein, we proposed zwitterionic COF as a porous host to disperse LiCl for highly efficient NH 3 storage and separation with record adsorption capacity. The equivalently cationic and anionic groups in the channels of zwitterionic COF could act as two separated sites to facilitate the dispersion of LiCl, hence the optimal composite exhibits a high capture capacity of 44.98 mmol/g at 25 °C and 1 bar, far exceeding other existing porous materials. Notably, the adsorption capacity is completely reversible and the efficient separation of NH 3 from NH 3 /CO 2 /N 2 mixture is achieved through breakthrough experiments. DFT calculation combined with XPS and 7 Li NMR experimental results give insight into the interaction between zwitterionic COF and LiCl. This work extends possibilities for the development of efficient adsorbents for NH 3 storage and separation.