Article,
Novel bio-solar hybrid photoelectrochemical synthesis for selective hydrogen peroxide production
Affiliations
- [1] Technical University of Denmark [NORA names: DTU Technical University of Denmark; University; Denmark; Europe, EU; Nordic; OECD];
- [2] Yantai University [NORA names: China; Asia, East]
Abstract
The demand for HO, a highly efficient and green disinfectant, has been increasing worldwide in recent years. However, the conventional processes for HO production are either energy-intensive or have high environmental impact. Herein, we propose an innovative bio-solar hybrid photoelectrochemical synthesis (BSPS) system that couples microbial photoelectrochemical synthesis and polyterthiophene (pTTh)-based photocatalysis for efficient and selective synthesis of green HO. The impact of key operational factors such as the applied voltage, pH, aeration rate, light intensity, thickness of the pTTh catalytic layer, and electrolyte nature and concentrations on HO synthesis was assessed. The BSPS system yielded a cumulative production of 232.5 mg L of HO in 12 h under LED light irradiation, which is 6.1-fold the yield using a typical graphite plate electrode and 7.8-fold the yield when the system was run in darkness. Moreover, the BSPS system was successfully tested under natural illumination from sunlight for efficient synthesis of HO. Finally, a tertiary treatment process by further combining the BSPS system with the Fenton reaction enabled the rapid and complete removal of twenty micropollutants in wastewater. This work introduces an innovative and sustainable energy recycling strategy enabling HO generation and subsequent efficient tertiary wastewater treatment.