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Copper‐nitrogen‐doped carbon‐based nanocatalysts (Cu‐NCs), containing atomically dispersed Cu‐NxC4‐x sites, are efficient in boosting the Fenton‐like reaction. However, the mechanisms of the Fenton‐like reaction, including the pH effect on the products and the effect of the coordination environment on catalytic activity, remain controversial, restricting the development of Cu‐NCs. Cu‐NCs are experimentally...
The lack of systematic structural resolution makes it difficult to build specific transition‐metal‐atom‐doped carbonized polymer dots (TMA‐doped CPDs). Herein, the structure‐activity relationship between Cu atoms and CPDs was evaluated by studying the peroxidase‐like properties of Glu−Cu−CPDs prepared by using copper glutamate (Glu) with a Cu−N2O2 initial structure. The results showed that the Cu...
The lack of systematic structural resolution makes it difficult to build specific transition‐metal‐atom‐doped carbonized polymer dots (TMA‐doped CPDs). Herein, the structure‐activity relationship between Cu atoms and CPDs was evaluated by studying the peroxidase‐like properties of Glu−Cu−CPDs prepared by using copper glutamate (Glu) with a Cu−N2O2 initial structure. The results showed that the Cu...