Confined interface engineering of self-supported Cu@N-doped graphene for electrocatalytic CO2 reduction with enhanced selectivity towards ethanol

“…POMOF materials with specific catalytic properties can be tailored according to specific application environments. 82 The diverse and efficient catalytic characteristics of POMOFs make them significantly valuable in the fields of anti-inflammatory and cancer therapy.…”

Advancing biomedical applications of polyoxometalate-based metal–organic frameworks: from design to therapeutic potential

“…POMOF materials with specific catalytic properties can be tailored according to specific application environments. 82 The diverse and efficient catalytic characteristics of POMOFs make them significantly valuable in the fields of anti-inflammatory and cancer therapy.…”

Advancing biomedical applications of polyoxometalate-based metal–organic frameworks: from design to therapeutic potential

“…However, it is reported that a Cu-N-C material composed of predominantly Cu-N sites can catalyze CO 2 into ethanol with high faradaic efficiency. 136,139 As we all know, the formation of the C 2 product involves two *CO intermediates on two active sites nearby and the large interatomic distances of single sites would not allow this process to occur (Fig. 15d).…”

Advances and challenges in single-site catalysts towards electrochemical CO₂ methanation

“…[85] Atomic cooper or cooper clusters trapped by DG can also be excellent catalysts for CO 2 RR. [98,99] Additional advantages of defect-based electrocatalysts including high atom utilization, high electronic conductivity, long durability, and high chemical tolerance make them to be remarkable electrocatalysts. However, the controllable synthesis of the target configurations and evenly dispersed heterogeneous species are still a grand challenge.…”

Defect‐Derived Catalysis Mechanism of Electrochemical Reactions in Two‐Dimensional Carbon Materials