4.8 Article

Gold nanobipyramid@cuprous oxide jujube-like nanostructures for plasmon-enhanced photocatalytic performance

期刊

APPLIED CATALYSIS B-ENVIRONMENTAL
卷 234, 期 -, 页码 26-36

出版社

ELSEVIER
DOI: 10.1016/j.apcatb.2018.04.014

关键词

Gold nanobipyramid; Cuprous oxide; Photocatalytic activity; Surface plasmon resonance effect; Schottky junction

资金

  1. National Key Research and Development Program of China [2016YFC0102700]
  2. National Natural Science Foundation of China [61671299]
  3. Shanghai Science and Technology Grant [16JC1402000, 17ZR1414100]
  4. Program of Shanghai Academic/Technology Research Leader [15XD1525200]
  5. Program for Professor of Special Appointment (Eastern Scholar) at Shanghai Institutions of Higher Learning [GZ2016005]

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Nobel metal/semiconductor composites is a kind of alluring photocatalysts based on their broad light absorption and high photocatalytic efficiency. In this work, we reported a novel jujube-like gold nanobipyramid core/cuprous oxide shell (Au NBP@Cu2O) composite photocatalyst, with adjustable aspect ratio of Au NBP core and thickness of Cu2O shell. The Au NBP@Cu2O products possess tunable light absorption from visible to near-infrared region and all of them exhibit excellent photocatalytic performances compared with pure Cu2O. The optimal Au NBP@Cu2O sample achieves nearly 100% degradation of methyl orange in 60 min compared with 2.45% for pure Cu2O under illumination (lambda > 400 nm), and 47.5% degradation of methyl orange in 60 min compared with 1.23% for pure Cu2O under illumination (lambda > 700 nm). The enhanced photocatalytic behaviors are attributed to the efficient charge separation driven by Schottky junction in Au NBP@Cu 2 0, as well as the strong surface plasmon resonance effect from Au NBPs which not only extends the light response for Cu2O but also enhances the photodegradation by generating hot electrons to inject into Cu2O. Furthermore, it is worth mentioning that the Au NBP@Cu2O composites exhibit significantly enhanced stability because the Au NBP core can draw holes from Cu2O. This work may provide guidance to the fabrication of plasmon-enhanced photocatalysts based on Au NBPs and other semiconductors along with the exploration of wider applications for them in the future work.

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