Review on Heteroatom Doping Carbonaceous Materials Toward Electrocatalytic Carbon Dioxide Reduction

Abstract: Carbon dioxide (CO2) reduction into chemicals or fuels by electrocatalysis can effectively reduce greenhouse gas emissions and alleviate the energy crisis. Currently, CO2 electrocatalytic reduction (CO2RR) has been considered as an ideal way to achieve “carbon neutrality.” In CO2RR, the characteristics and properties of catalysts directly determine the reaction activity and selectivity of the catalytic process. Much attention has been paid to carbon-based catalysts because of their diversity, low cost, high av… Show more

“…Therefore, it is highly important to rationally design and choose a suitable catalytic material to reduce activation energy barrier and induce more suitable intermediates. [78,79] MOF structures can play a vital role in this journey by providing an appropriate platform for controlling active sites, which can affect reactant absorption and intermediates. [77,80] It is clear that CO 2 conversion into multicarbon products is the most challenging process because generation of C 2þ products involve several complicated steps and intermediates.…”

Rational Design of Advanced Metal Organic Framework‐Based Nanostructured Catalysts toward Electrocatalytic CO₂ Conversion: A Mini Review

“…Therefore, it is highly important to rationally design and choose a suitable catalytic material to reduce activation energy barrier and induce more suitable intermediates. [78,79] MOF structures can play a vital role in this journey by providing an appropriate platform for controlling active sites, which can affect reactant absorption and intermediates. [77,80] It is clear that CO 2 conversion into multicarbon products is the most challenging process because generation of C 2þ products involve several complicated steps and intermediates.…”

Rational Design of Advanced Metal Organic Framework‐Based Nanostructured Catalysts toward Electrocatalytic CO₂ Conversion: A Mini Review