Synthesis of TiO2/RGO with plasmonic Ag nanoparticles for highly efficient photoelectrocatalytic reduction of CO2 to methanol toward the removal of an organic pollutant from the atmosphere
2021
Bharath, G. | Prakash, J. | Rambabu, K. | Venkatasubbu, G Devanand | Kumar, Ashok | Lee, Seungjun | Theerthagiri, Jayaraman | Choi, Myong Yong | Banat, Fawzi
The synergistic photoelectrochemical (PEC) technology is a robust process for the conversion of CO₂ into fuels. However, designing a highly efficient UV–visible driven photoelectrocatalyst is still challenging. Herein, a plasmonic Ag NPs modified TiO₂/RGO photoelectrocatalyst (Ag–TiO₂/RGO) has been designed for the PEC CO₂ reduction into selective production of CH₃OH. HR-TEM analysis revealed that Ag and TiO₂ NPs with average sizes of 4 and 7 nm, respectively, were densely grown on the few-micron-sized 2D RGO nanosheets. The physicochemical analysis was used to determine the optical and textural properties of the Ag–TiO₂/RGO nanohybrids. Under VU-Vis light illumination, Ag–TiO₂/RGO photocathode possessed a current density of 23.5 mA cm⁻² and a lower electrode resistance value of 125 Ω in CO₂-saturated 1.0 M KOH-aqueous electrolyte solution. Catalytic studies showed that the Ag–TiO₂/RGO photocathode possessed a remarkable PEC CO₂ reduction activity and selective production of CH₃OH with a yield of 85 μmol L⁻¹ cm⁻², the quantum efficiency of 20% and Faradic efficiency of 60.5% at onset potential of −0.7 V. A plausible PEC CO₂ reduction mechanism over Ag–TiO₂/RGO photocathode is schematically demonstrated. The present work gives a new avenue to develop high-performance and stable photoelectrocatalyst for PEC CO₂ reduction towards sustainable liquid fuels production.
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