Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution

Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution

The reasonable designing, interfacial tuning and construction of S-scheme heterostructures offering high performance water pollutants treatment and energy production still remains challenging. Following the structure, band structure and interface function perspective, we prepared Fe7S8/CuIn5S8 heter...

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Main Authors: Sharma, Pankaj, Kumar, Amit, Wang, Tongtong, Dhiman, Pooja, Sharma, Gaurav, Lai, Chin Wei
Format: Article
Published: Elsevier Science Ltd 2024
Subjects:
TD Environmental technology. Sanitary engineering
TP Chemical technology
Online Access:http://eprints.um.edu.my/45200/
https://doi.org/10.1016/j.jece.2024.112851
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Institution: Universiti Malaya
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spelling my.um.eprints.452002024-09-25T08:56:35Z http://eprints.um.edu.my/45200/ Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution Sharma, Pankaj Kumar, Amit Wang, Tongtong Dhiman, Pooja Sharma, Gaurav Lai, Chin Wei TD Environmental technology. Sanitary engineering TP Chemical technology The reasonable designing, interfacial tuning and construction of S-scheme heterostructures offering high performance water pollutants treatment and energy production still remains challenging. Following the structure, band structure and interface function perspective, we prepared Fe7S8/CuIn5S8 heterostructures photocatalysts with sulfur vacancies for superior norfloxacin (NOR) degradation and hydrogen production under visible light. In particular, for optimal 30FS/CIS (30%Fe7S8/CuIn5S8), the H-2 evolution was up to 35.6 mmol g(-1) h(-1) which was 11.5 times than pristine Fe7S8 with TEOA as sacrificial agent. The heterojunction could also show 98.7% degradation of NOR in 90 min under visible light. Interestingly, using NOR pollutant as sacrificial agent under synergistic conditions, 22.7 mmol g(-1) h(-1) H-2 evolution and 98.9% degradation of NOR (in 45 min) was achieved. The significantly boosted photocatalytic pollutant degradation and hydrogen generation performance over Fe7S8/CuIn5S8 hybrids is ascribed to the efficient S-scheme charge transfer and active sites provided by sulfur vacancies (V-s). The deep electron transfer mechanism and the charge transfer efficiency were supported by insitu XPS, UPS, electrochemical experiments and photoluminescence. Experimental results including scavenging tests and ESR findings provided the direct evidence of photogenerated holes and (OH)-O-center dot radicals for pollutant degradation and electrons in hydrogen generation. This work contributes to effective designing and developing high-activity visible light/solar light assisted heterojunction photocatalysts for realizing superior clean energy generation and pollutant degradation. Elsevier Science Ltd 2024-06 Article PeerReviewed Sharma, Pankaj and Kumar, Amit and Wang, Tongtong and Dhiman, Pooja and Sharma, Gaurav and Lai, Chin Wei (2024) Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution. Journal of Environmental Chemical Engineering, 12 (3). p. 112851. ISSN 2213-2929, DOI https://doi.org/10.1016/j.jece.2024.112851 <https://doi.org/10.1016/j.jece.2024.112851>. https://doi.org/10.1016/j.jece.2024.112851 10.1016/j.jece.2024.112851
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic TD Environmental technology. Sanitary engineering
TP Chemical technology
spellingShingle TD Environmental technology. Sanitary engineering
TP Chemical technology
Sharma, Pankaj
Kumar, Amit
Wang, Tongtong
Dhiman, Pooja
Sharma, Gaurav
Lai, Chin Wei
Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution
description The reasonable designing, interfacial tuning and construction of S-scheme heterostructures offering high performance water pollutants treatment and energy production still remains challenging. Following the structure, band structure and interface function perspective, we prepared Fe7S8/CuIn5S8 heterostructures photocatalysts with sulfur vacancies for superior norfloxacin (NOR) degradation and hydrogen production under visible light. In particular, for optimal 30FS/CIS (30%Fe7S8/CuIn5S8), the H-2 evolution was up to 35.6 mmol g(-1) h(-1) which was 11.5 times than pristine Fe7S8 with TEOA as sacrificial agent. The heterojunction could also show 98.7% degradation of NOR in 90 min under visible light. Interestingly, using NOR pollutant as sacrificial agent under synergistic conditions, 22.7 mmol g(-1) h(-1) H-2 evolution and 98.9% degradation of NOR (in 45 min) was achieved. The significantly boosted photocatalytic pollutant degradation and hydrogen generation performance over Fe7S8/CuIn5S8 hybrids is ascribed to the efficient S-scheme charge transfer and active sites provided by sulfur vacancies (V-s). The deep electron transfer mechanism and the charge transfer efficiency were supported by insitu XPS, UPS, electrochemical experiments and photoluminescence. Experimental results including scavenging tests and ESR findings provided the direct evidence of photogenerated holes and (OH)-O-center dot radicals for pollutant degradation and electrons in hydrogen generation. This work contributes to effective designing and developing high-activity visible light/solar light assisted heterojunction photocatalysts for realizing superior clean energy generation and pollutant degradation.
format Article
author Sharma, Pankaj
Kumar, Amit
Wang, Tongtong
Dhiman, Pooja
Sharma, Gaurav
Lai, Chin Wei
author_facet Sharma, Pankaj
Kumar, Amit
Wang, Tongtong
Dhiman, Pooja
Sharma, Gaurav
Lai, Chin Wei
author_sort Sharma, Pankaj
title Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution
title_short Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution
title_full Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution
title_fullStr Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution
title_full_unstemmed Bifunctional S-scheme Fe7S8/CuIn5S8 heterostructures with S-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution
title_sort bifunctional s-scheme fe7s8/cuin5s8 heterostructures with s-vacancies for boosted photocatalytic antibiotic degradation and hydrogen evolution
publisher Elsevier Science Ltd
publishDate 2024
url http://eprints.um.edu.my/45200/
https://doi.org/10.1016/j.jece.2024.112851
_version_ 1811682101623259136

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