2018
DOI: 10.1007/s40843-018-9362-y
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Improved photoelectric properties of BiOBr nanoplates by co-modifying SnO2 and Ag to promote photoelectrons trapped by adsorbed O2

Abstract: It is highly desired to improve the photoelectric property of nanosized BiOBr by promoting the photogenerated charge transfer and separation. Herein, SnO 2 and Ag comodified BiOBr nanocomposites (Ag-SO-BOB) have been prepared through a simple one-pot hydrothermal method. Surface photovoltage response of BiOBr nanoplates has 4.1time enhancement after being modified with SnO 2 nanoparticles. Transient-state surface photovoltage (TS-SPV) and the atmosphere-controlled steady-state surface photovoltage spectroscopy… Show more

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Cited by 10 publications
(3 citation statements)
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“…It has been widely used in environmental protection due to its unique layered structure and efficient photocatalysis. In addition, Br – can easily escape from the interlayers owing to the weak van der Waals interaction and the presence of reduction potential; thus the corresponding extraction sites were generated to selectively reinsert Br – . Based on this remarkable electrochemical property, our group extended the application of BiOBr to the selective extraction of Br – . For example, Wang et al prepared a BiOBr film on carbon paper by a three-step electrochemical method for Br – extraction by using a photoassisted ESIX technology .…”
Section: Introductionmentioning
confidence: 99%
“…It has been widely used in environmental protection due to its unique layered structure and efficient photocatalysis. In addition, Br – can easily escape from the interlayers owing to the weak van der Waals interaction and the presence of reduction potential; thus the corresponding extraction sites were generated to selectively reinsert Br – . Based on this remarkable electrochemical property, our group extended the application of BiOBr to the selective extraction of Br – . For example, Wang et al prepared a BiOBr film on carbon paper by a three-step electrochemical method for Br – extraction by using a photoassisted ESIX technology .…”
Section: Introductionmentioning
confidence: 99%
“…More importantly, BiOBr shows an appropriate indirect band gap, implies that photogenerated e − must cross a certain k‐ space to be emitted to CB, further to prevent the recombination rates of photoexcited e − ‐ h + pairs [5, 6]. Nevertheless, there exist low quantum efficiency and fast photoexcited e − ‐ h + pairs recombination rates as the “bottleneck” for satisfying with the requirement of practical applications [7, 8]. Therefore, it is rather critical to explore novel strategies to improve the photocatalytic performance of BiOBr.…”
Section: Introductionmentioning
confidence: 99%
“…More importantly, BiOBr shows an appropriate indirect band gap, implies that photogenerated emust cross a certaink-space to be emitted to CB, further to prevent the recombination rates of photoexcitede --h + pairs [5,6] . Nevertheless, there exist low quantum efficiency and fast photoexcitede --h + pairs recombination rates as the "bottleneck" for satisfying with the requirement of practical applications [7,8] . Therefore, it is rather critical to explore novel strategies to improve the photocatalytic performance of BiOBr.…”
Section: Introductionmentioning
confidence: 99%