Plasma-Tuned nitrogen vacancy graphitic carbon nitride sphere for efficient photocatalytic H2O2 production

Graphitic carbon nitride (CN) is a promising photocatalyst for sustainable energy conversion. Meanwhile, N vacancies are useful for H2O2 generation; however, they are hard to control. In this study, the N vacancy CN sphere (NVCNS) is synthesized by H-2 plasma treatment to tune the NV. The as-synthesized NVCNS exhibits an efficient and stable photocatalytic H2O2 yield of 4413.1 mu mol g(cat)(-1)h(-1), which is 2.5 and 4.6 times higher than that of CNS (1766.4 lmol g(cat)(-1)h(-1)) and bulk CN (956.6 lmol g(cat)(-1)h(-1)), respectively, using a Xe lamp with an intensity of 100 mWcm(-2). In particular, the charges recombination rate is remarkably reduced by introducing N defect state, promoting electron accumulation and O-2 adsorption, through theoretical calculation and experiments. Furthermore, the NV creates abundant unsaturated sites and induces strong interlayer interactions, leading to effective electronic excitation and the promotion of charge transport. (C) 2021 Elsevier Inc. All rights reserved.