Electrochemical synthesis of H2O2via a two-electron oxygen reduction reaction (2e- ORR) has emerged as a promising alternative to the anthraquinone process. However, the strong competition from the 4e- pathway severely… Click to show full abstract
Electrochemical synthesis of H2O2via a two-electron oxygen reduction reaction (2e- ORR) has emerged as a promising alternative to the anthraquinone process. However, the strong competition from the 4e- pathway severely limits its activity and selectivity, especially for Pt-based catalysts. Herein, ultrathin single-crystal PtSe2 nanosheets were successfully prepared via an in situ selenization process using commercial Pt/C as a precursor, demonstrating an exclusive 2e- ORR pathway compared to the 4e- pathway of commercial Pt/C, delivering a high H2O2 selectivity over a wide pH range (>80%, up to 94.1%). Furthermore, in situ infrared spectroscopy results revealed Pt as an active center, accompanied by the key intermediate OOH* adsorption and HOOH formation.
               
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