Solvothermal synthesis of I-deficient BiOI thin film with distinct photocatalytic activity and durability under simulated sunlight

[Display omitted] •Novel I-deficient BiOI thin films were solvothermally synthesized assisted with calcination.•BiOI nanospheres grew on glass plate via BiOSi bonds and thin film was formed.•Iodine vacancies formed during calcination, leading to enhanced photoelectric property.•The film exhibited di...

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Bibliographic Details
Published in:Applied catalysis. B, Environmental Environmental, 2017-12, Vol.219, p.249-258
Main Authors: Cui, Shuo, Shan, Guoqiang, Zhu, Lingyan
Format: Article
Language:English
Subjects:
BiOI thin film
Bisphenol A
BPA
Calcination
Catalytic activity
Crystals
Durability
Electrons
Endocrine disruptors
Glass plates
Glass substrates
I vacancy
Iodine
Ionic liquids
Lattice vacancies
Phenols
Photocatalysis
Photodegradation
Photoelectricity
Pressurized water
Recombination
Roasting
Sunlight
Thin films
Wastewater treatment
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Summary:[Display omitted] •Novel I-deficient BiOI thin films were solvothermally synthesized assisted with calcination.•BiOI nanospheres grew on glass plate via BiOSi bonds and thin film was formed.•Iodine vacancies formed during calcination, leading to enhanced photoelectric property.•The film exhibited distinct photocatalytic activity under simulated sunlight.•The film was very durable and kept high activity after 6 runs of reaction. I-deficient BiOI thin film was prepared via a facile solvothermal approach assisted with a ([C6Mim]I) ionic liquid and calcination. The glass plates were pretreated with high pressurized water to make the substrate surface rough. A thin layer of BiOI grew stably on the rough surface of glass substrate with uniformly assembled nanosheets. As the preparation process repeated, BiOI crystals continued to grow and the film became denser and thicker with larger surface area and pore volume. During calcination, a small portion of iodine was lost and iodine vacancies formed, leading to I-deficient BiOI. The produced iodine vacancies acted as traps for photogenerated holes. Consequently, the recombination of photogenerated electrons and holes were significantly inhibited. The film displayed an excellent photoelectric property and distinct photocatalytic degradation efficiency for bisphenol A (BPA), a typical endocrine disrupting compound (EDC), under simulated sunlight. The film also displayed very good durability and reusability. Without necessity to separate the photocatalysts from reaction solution, the as-prepared I-deficient BiOI thin film displayed a great potential for practical wastewater treatment.
ISSN:0926-3373
1873-3883
DOI:10.1016/j.apcatb.2017.07.026