Boosting the Performance of Formate Dehydrogenase by Silver Nanoclusters for Photoreduction of CO₂ to Formate

Abstract: (Photo)­Electrochemical CO2 transformation to produce valuable chemicals or biofuels is one of the essential technologies for the carbon-neutral economy to store clean and renewable energy in chemical bonds. Herein, we show an efficient photocatalytic assembly formed by coupling formate dehydrogenase from Clostridium ljungdahliia (ClFDH), silver nanoclusters (AgNCs), TiO2, and graphitic carbon nitride (g-C3N4). The resulting integrated system is stable and can convert CO2 into formate with a turnover frequency… Show more

“…Optimal NADH yield regeneration was obtained (74%). Silver nanoclusters combined with TiO 2 and g-C 3 N 4 have also been employed in efficient devices for formate production [ 278 ]. These nanoclusters are good light sensors, making it possible to obtain good yields in CO 2 uptake with the metal-dependent FDH from Clostridium ljungdahliia .…”

Direct Biocatalytic Processes for CO2 Capture as a Green Tool to Produce Value-Added Chemicals

“…Optimal NADH yield regeneration was obtained (74%). Silver nanoclusters combined with TiO 2 and g-C 3 N 4 have also been employed in efficient devices for formate production [ 278 ]. These nanoclusters are good light sensors, making it possible to obtain good yields in CO 2 uptake with the metal-dependent FDH from Clostridium ljungdahliia .…”

Direct Biocatalytic Processes for CO2 Capture as a Green Tool to Produce Value-Added Chemicals

Photocoupling multi-enzyme nanoreactor simultaneously synthesizes pentanediamine and formic acid

A comparative study on carbon neutral hydrogen carrier production: Formic acid from CO2 vs. ammonia