As a new kind of two-dimensional carbon allotrope, graphdiyne (GDY) consists of sp- and sp-hybridized carbon atoms and has recently been used for developing highly efficient photocatalytic systems because of its unique properties. In this study, we find that GDY can form a Pickering emulsion with silver phosphate (AgPO) nanoparticles that exhibits largely enhanced photocatalytic activity in the visible-light region. In this system, AgPO acts as a photocatalytically active semiconductor with GDY as the hydrophobic nanostructure. Photocatalytic activity of the AgPO/GDY-based Pickering emulsion toward the photodegradation of methylene blue (MB) and photooxidation of water is investigated under visible-light irradiation. Compared to previous AgPO/CNT- or AgPO/graphene-based Pickering emulsions, the AgPO/GDY-based emulsion efficiently catalyzes MB degradation with a higher apparent rate constant k being ∼0.477 min, while for water oxidation its photocatalytic activity is also improved by 1.89 and 1.75 times, respectively. Such an enhancement in the photocatalytic activity is mainly ascribed to the capability of GDY in acting as an acceptor of the photogenerated electrons from AgPO nanoparticles and in facilitating the hole transportation as well as in reducing Ag to Ag. This study demonstrates that GDY is a new candidate with a promising future in developing photocatalytic systems with high efficiency for real applications.
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