Plastics are ubiquitous in human life and pose certain hazards to the environment and human body.The increasing amount of CO_(2)in the atmosphere will lead to the greenhouse effect.Therefore,it is urgent to treat micr...Plastics are ubiquitous in human life and pose certain hazards to the environment and human body.The increasing amount of CO_(2)in the atmosphere will lead to the greenhouse effect.Therefore,it is urgent to treat microplastic waste and CO_(2)by using environmentally friendly and efficient technologies.In this work,we developed an efficient photoelectrocatalytic system composed of Ni single atoms(Ni SAs)supported by P,N-doped amorphous NiFe_(2)O_(4)(Ni SAs/A-P-N-NFO)as anode and Ag nanoparticles(Ag NPs)supported by CuO/Cu_(2)O nanocubes(Ag NPs@CuO/Cu_(2)O NCs)as cathode for microplastic oxidation and CO_(2)reduction.The Ni SAs/A-P-N-NFO was synthesized by calcination-H_(2)reduction method,and it achieved a Faraday efficiency of 93%for the oxidation reaction of poly(ethylene terephthalate)(PET)solution under AM 1.5 G light.As a photocathode,the synthesized Ag NPs@CuO/Cu_(2)O NCs was utilized to reduce CO_(2)to ethylene and CO at 1.5 V vs.RHE with selectivity of 42%and 55%,respectively.This work shows that the photoelectrocatalysis,as an environmentally friendly technology,is a feasible strategy for reducing the environmental and biological hazards of light plastics,as well as for efficient CO_(2)reduction.展开更多
文摘Plastics are ubiquitous in human life and pose certain hazards to the environment and human body.The increasing amount of CO_(2)in the atmosphere will lead to the greenhouse effect.Therefore,it is urgent to treat microplastic waste and CO_(2)by using environmentally friendly and efficient technologies.In this work,we developed an efficient photoelectrocatalytic system composed of Ni single atoms(Ni SAs)supported by P,N-doped amorphous NiFe_(2)O_(4)(Ni SAs/A-P-N-NFO)as anode and Ag nanoparticles(Ag NPs)supported by CuO/Cu_(2)O nanocubes(Ag NPs@CuO/Cu_(2)O NCs)as cathode for microplastic oxidation and CO_(2)reduction.The Ni SAs/A-P-N-NFO was synthesized by calcination-H_(2)reduction method,and it achieved a Faraday efficiency of 93%for the oxidation reaction of poly(ethylene terephthalate)(PET)solution under AM 1.5 G light.As a photocathode,the synthesized Ag NPs@CuO/Cu_(2)O NCs was utilized to reduce CO_(2)to ethylene and CO at 1.5 V vs.RHE with selectivity of 42%and 55%,respectively.This work shows that the photoelectrocatalysis,as an environmentally friendly technology,is a feasible strategy for reducing the environmental and biological hazards of light plastics,as well as for efficient CO_(2)reduction.
