Converting CO₂ into Value‐Added Products by Cu₂O‐Based Catalysts: From Photocatalysis, Electrocatalysis to Photoelectrocatalysis

Abstract: Considering the high energy demand in modern society and the widespread acceptance of "carbon neutrality" policies, reducing CO 2 into value-added products through "artificial carbon cycling" seems more reasonable and attractive. [3,4] Among the various methods of CO 2 resource utilization, photocatalysis (PC), electrocatalysis (EC) and photoelectrocatalysis (PEC), which can be operated at room temperature and atmospheric pressure, are considered to be a relatively feasible scheme. [5][6][7][8][9] Photocatalys… Show more

“…26 The construction of heterojunctions to promote the rapid recombination of photogenerated electrons and holes in Cu 2 O is undoubtedly an effective method to prevent the photocorrosion reaction. 27 Dong et al 28 successfully synthesized a Co-MOF/Cu 2 O heterojunction based on Co-MOF and nanocrystalline Cu 2 O. The optimum photocatalytic activity of Co-MOF/Cu 2 O was about 9.6 times higher than that of pristine Cu 2 O, which provides inspiration for the design of the catalyst in this research.…”

A dual Z-scheme heterojunction Cu-CuTCPP/Cu₂O/CoAl-LDH for photocatalytic CO₂ reduction to C1 and C2 products

“…26 The construction of heterojunctions to promote the rapid recombination of photogenerated electrons and holes in Cu 2 O is undoubtedly an effective method to prevent the photocorrosion reaction. 27 Dong et al 28 successfully synthesized a Co-MOF/Cu 2 O heterojunction based on Co-MOF and nanocrystalline Cu 2 O. The optimum photocatalytic activity of Co-MOF/Cu 2 O was about 9.6 times higher than that of pristine Cu 2 O, which provides inspiration for the design of the catalyst in this research.…”

A dual Z-scheme heterojunction Cu-CuTCPP/Cu₂O/CoAl-LDH for photocatalytic CO₂ reduction to C1 and C2 products

“…These not only destroy the ecological environment, but even pose a great threat to biological life. 162,163 Based on the above, the treatment and monitoring of various pollutants has become an important part of the green and sustainable development of ecological environment protection. 164–166 MOF-derived bimetallic spinels have become one of the dominant catalysts for the degradation and monitoring of pollutants due to their excellent size, structure, and tunable composition.…”

Modular preparation of functional bimetallic spinels from metal–organic frameworks: a deep exploration from macro and micro perspectives

“…Generally, MOF materials encompass the combined functionalities of both metal ions and clusters and organic ligands. By synergistically coupling the electronic, magnetic, and optical properties of inorganic and organic structural units, it becomes possible to create MOF materials with enhanced functionality and broader applicability. − …”

Recent Progress and Outlook of Metal–Organic Framework Materials Used for CO₂ Electrocatalytic Reduction