Solar-Driven Nitrogen Fixation Catalyzed by Stable Radical-Containing MOFs: Improved Efficiency Induced by a Structural Transformation.
Kong-Qiu HuPeng-Xiang QiuLi-Wen ZengShu-Xian HuLei MeiShu-Wen AnZhi-Wei HuangXiang-He KongJian-Hui LanJi-Pan YuZhi-Hui ZhangZhong-Fei XuJohn K GibsonZhi-Fang ChaiYun-Fei BuWei-Qun ShiPublished in: Angewandte Chemie (International ed. in English) (2020)
Herein we present a new viologen-based radical-containing metal-organic framework (RMOF) Gd-IHEP-7, which upon heating in air undergoes a single-crystal-to-single-crystal transformation to generate Gd-IHEP-8. Both RMOFs exhibit excellent air and water stability as a result of favorable radical-radical interactions, and their long-lifetime radicals result in wide spectral absorption in the range 200-2500 nm. Gd-IHEP-7 and Gd-IHEP-8 show excellent activity toward solar-driven nitrogen fixation, with ammonia production rates of 128 and 220 μmol h-1 g-1 , respectively. Experiments and theoretical calculations indicate that both RMOFs have similar nitrogen fixation pathways. The enhanced catalytic efficiency of Gd-IHEP-8 versus Gd-IHEP-7 is attributed to intermediates stabilized by enhanced hydrogen bonding.