Two-Dimensional Silver-Metalated Graphdiyne Nanosheets for Photocatalytic Degradation of Antibiotics
Runhao Huang, Zhenhui Kou, Raúl D. Rodriguez, Xusheng Wang, Yang Hou, Tao Wang, Tao Zhang
Abstract
The two-dimensional layered carbon allotrope graphdiyne (GDY) is formed by combining hybridized sp–sp 2 carbon atoms. This alkynyl-bonded 2D carbon network with tunable energy levels and high carrier-mobility has excellent potential in solar energy utilization. However, the standard but complex synthesis method of GDYs by epitaxial growth on a metal-crystal surface and the poor activity of metal-free materials limit applications beyond the lab. Here, we produce a silver-metalated GDY (Ag-GDY) through a facile and scalable wet-chemistry strategy, featured by an appropriate band gap at 2.61 eV and good e – / h + separation ability. These unique characteristics facilitate the reaction between Ag-GDY and oxygen to form a variety of active free radicals. The Ag-GDY photocatalyst displays an excellent ability for the light-driven decomposition of antibiotics. Tetracycline with a concentration as low as 5.0 × 10 –5 M is degraded within 30 min by Ag-GDY, showing excellent performance stability of up to five reuse cycles.