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A hybrid photocatalytic assembly with Ni poly-pyridine polymers binding on CdS quantum dots is developed via thiophene immobilization. The fabricated hybrid assembly fascinates efficient charge separation, and each component endows… Click to show full abstract
A hybrid photocatalytic assembly with Ni poly-pyridine polymers binding on CdS quantum dots is developed via thiophene immobilization. The fabricated hybrid assembly fascinates efficient charge separation, and each component endows great synergy. As a result, a high syngas production rate is achieved over 5500 µmol g (cat)-1 h-1 from photocatalytic CO2 reduction under visible-light irradiation, accompanied by an adjustable H2/CO ratio ranging from 4: 1 to 1: 3. Here, we described a novel hybrid assembly for syngas synthesis with boosted activity and controlled selectivity, which provides a profile to ingeniously understand molecular-level design for photocatalyst.
Journal Title: ChemSusChem
Year Published: 2022
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