CO<sub>2</sub> Footprint of Thermal Versus Photothermal CO<sub>2</sub> Catalysis
Shenghua Wang, Athanasios A. Tountas, Wangbo Pan, Jianjiang Zhao, Le He, Wei Sun, Deren Yang, Geoffrey A. Ozin
Abstract
Abstract Transformation of CO 2 into value‐added products via photothermal catalysis has become an increasingly popular route to help ameliorate the energy and environmental crisis derived from the continuing use of fossil fuels, as it can integrate light into well‐established thermocatalysis processes. The question however remains whether negative CO 2 emission could be achieved through photothermal catalytic reactions performed in facilities driven by electricity mainly derived from fossil energy. Herein, we propose universal equations that describe net CO 2 emissions generated from operating thermocatalysis and photothermal reverse water–gas shift (RWGS) and Sabatier processes for batch and flow reactors. With these reactions as archetype model systems, the factors that will determine the final amount of effluent CO 2 can be determined. The results of this study could provide useful guidelines for the future development of photothermal catalytic systems for CO 2 reduction.