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UV and visible light synergetic photodegradation using rutile TiO2 nanorod arrays based on a p-n Junction.

Tao JiZe CuiWenlong ZhangYunjiu CaoYongfang ZhangShu-Ang HeMingdong XuYangang SunRujia ZouJunqing Hu
Published in: Dalton transactions (Cambridge, England : 2003) (2018)
Herein, we report a photocatalytic heterojunction device of rutile TiO2 nanorod arrays based on a p-n silicon junction (TiO2@PN) and its full absorption of ultraviolet and visible light for synergistic photodegradation. The fabricated TiO2@PN had excellent photocatalytic degradation of methyl orange (MO) under irradiation of a 300 W Xe lamp, and its pseudo-first-order rate constant k was 0.221 h-1, which was greatly higher than that for TiO2 nanorod arrays based on an n-p silicon junction (TiO2@NP, 0.078 h-1) and glass (TiO2@G, 0.032 h-1). The higher photocatalytic performance of TiO2@PN could be attributed to the fact that the photovoltage (PV) of the p-n junction promotes separation of the electron-hole pairs of the TiO2, and the holes are thus left within the TiO2 nanorods to produce a strong oxidant of hydroxyl radicals (˙OH). Moreover, this heterojunction device could be easily fabricated in a large size for easy recovery and recycling, which shows its promise in the solar-driven degradation of environmental pollution.
Keyphrases
  • visible light
  • particulate matter
  • machine learning
  • heavy metals
  • radiation therapy
  • air pollution
  • drinking water
  • artificial intelligence