A Multi-Interface Structure of Graphdiyne/Cobalt Oxides for Chlorine Production.
Huimin LiuLu QiZhaoyang ChenShuya ZhaoXiaoyu LuanJiayu YanZhiqiang ZhengFanle BuYurui XueYuliang LiPublished in: Small (Weinheim an der Bergstrasse, Germany) (2024)
A challenge facing the chlor-alkali process is the lack of electrocatalyst with high activity and selectivity for the efficient industrial production of chlorine. Herein the authors report a new electrocatalyst that can generate multi-interface structure by in situ growth of graphdiyne on the surface of cobalt oxides (GDY/Co 3 O 4 ), which shows great potential in highly selective and efficient chlorine production. This result is due to the strong electron transfer and high density charge transport between GDY and Co 3 O 4 and the interconversion of the mixed valence states of the Co atoms itself. These intrinsic characteristics efficiently enhance the conductivity of the catalyst, facilitate the reaction kinetics, and improve the overall catalytic selectivity and activity. Besides, the protective effect of the formed GDY layer is remarkable endowing the catalyst with excellent stability. The catalyst can selectively produce chlorine in low-concentration of NaCl aqueous solution at room temperature and pressure with the highest Faraday efficiency of 80.67% and an active chlorine yield rate of 184.40 mg h -1 cm -2 , as well as superior long-term stability.