Enhancing photocatalytic CO(2 )reduction reaction on amorphous Ni@NiO aerogel via oxygen incorporated tuning

Photochemical CO2 reduction to CO, acting as a mild and feasible method, holds huge prospects for atmospheric CO2 level diminution. Non-noble metal aerogel has been supposed to be an appealing material in the field of catalysis, yet suffering from low conductivity and poor activity. From the perspective of electronic structure modification, oxygen-incorporated Ni aerogel is prepared by a facile reduction-oxidation method. With the optimized electronic structure in Ni@NiO-2 aerogel by oxygen incorporation, brilliant photocatalytic activity with CO yield of 39.30 & mu;mol/mg and CO selectivity of 94.4 % could be achieved, taking advantage of the electron-rich Ni and greatly increased conductivity as well as sufficient active sites exposure. This work sheds light on the design and development of high-performance non-noble metal-based systems for catalytic CO2 utilization.

Automated summary

Photochemical CO2 reduction to CO is a mild and feasible method that holds great prospects for reducing atmospheric CO2 levels. By modifying the electronic structure, an oxygen-incorporated Ni aerogel with optimized electronic structure and improved photocatalytic activity is prepared. This work demonstrates the potential of high-performance non-noble metal-based systems for catalytic CO2 utilization.