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Huiqin Li, Speaker at CatalysisConference
Inner Mongolia University, China
Title : Preparation of catalyst with defective cerium-based structures and its application in VOCs degradation

Abstract:

The effectively decontamination for atmosphere VOCs is getting more important whereas it is general facing the issues such as technical difficulties and high energy consumption. In this work, a Z-scheme Ag/Ag3PO4/CeO2 heterojunction was prepared with a precipitation method and was applied to decompose gaseous benzene at very convenient ambient conditions. The prepared composite presents a 90.18% removal rate and 74.17% TOC efficiency within 3 h solar light irradiation at an initial 600 ppm benzene concentration. A photo-catalytic mechanism superimposed with solar light induced thermo-catalysis is proposed. Ag3PO4 that has great solar light absorptive capacity is used as the photocatalytic component and CeO2 is used as thermo-catalytic substrate due to its good thermo-conductivity in lower temperature. Ag0 produced from an in situ reduction of Ag3PO4 is used as an electronic relay platform to form a Z-type heterojunction together with Ag3PO4 and CeO2. Lots of vacancies of CeO2 contribute to the enhanced pre-adsorption towards to VOCs. The assembled Z-scheme Ag/Ag3PO4/CeO2 heterojunction is specially effectively for the separation of the photo-excited electrons and holes in space and maintains the highly redox potentials to decontaminate VOCs. Meanwhile, the composite is diverse, also having good oxidative power for HCHO, and thus could be a kind of promising material to purify VOCs in the convenient atmospheric environment.

Audience TAkeaway:

  • A Z-scheme Ag/Ag3PO4/CeO2 heterojunction was prepared by a precipitation method.
  • Ag/Ag3PO4/CeO2 presents high removal rate for gaseous benzene at ambient conditions.
  • A solar light-induced photo-thermal catalytic mechanism is proposed.
  • Ag3PO4 contribute to wide solar light harvesting and high oxidative ability.
  • CeO2 is used as thermocatalytic substrate in low temperature driving by solar light.

Biography:

(Dr. Huiqin Li studied Enviromental Chemistry at the Inner Mongolia University, China and graduated as MS in 2013 at the North China Electric Power University. Before  joined the Inner Mongolia University,  she had worked in Environmental Science Academy of Inner Mongolia and Chinese Research Academy of Environmental Sciences, alternatively. She has published 14 research articles in SCI(E) journals.)

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