Carbon Nanotube-Supported Cu3P as High-Efficiency and Low-Cost Cocatalysts for Exceptional Semiconductor-Free Photocatalytic H2 Evolution

Developing an inexpensive and high-efficiency hydrogen-production cocatalyst to replace the noble metal Pt remains a big challenge in the fields of sustainable photocatalytic hydrogen evolution. Herein, we report the exploration of a high-efficiency binary noble-metal-free Cu3P-CNT H-2-evolution cocatalyst by direct high-temperature phosphatizing of Cu(OH)(2)-CNT. Impressively, combining the advantages of noble-metal-free Cu3P and carbon nanotube (CNT), the binary Cu3P-CNT cocatalysts show high-efficiency photocatalytic H-2 evolution in Eosin Y (EY)-containing semiconductor-free photocatalytic systems. The maximum visible-light H-2-generation rate for promising EY-Cu3P-CNT systems was 17.22 mmol g(-1) h(-1). The highest apparent quantum efficiency (AQE) could reach 10.23% at 500 nm. More importantly, we found that the separation of photogenerated electrons and holes in the Eosin Y, the efficiency of electron transfer from EY to the active edge sites of Cu3P, and the electrocatalytic H-2-evolution activity of Cu3P could be simultaneously boosted via readily adding the conductive CNT, thus achieving the significantly improved photocatalytic H-2 evolution. This work provides a simple and facile strategy to design highly efficient semiconductor-free photocatalytic proton-reduction systems using high-activity transition metal phosphides and inexpensive carbon nanomaterials.