Fabrication of Sulfur Defect Rich ZnIn2S4/SnSe2 Photocatalyst with Ohmic Junction for Efficient Water to Hydrogen Energy Conversion

Wang, Xianghu; Shi, Tianyu; Meng, Alan; Wang, Lei; Li, Shaoxiang; Li, Guicun; Yu, Xiaohu; Li, Zhenjiang

doi:10.1002/solr.202200881

Cited by 13 publications

(5 citation statements)

References 54 publications

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“…The EPR spectra were recorded to further verify if V S were successfully introduced into the ZIS-V S and ZIS-V S /BMO samples. As shown in Figure d, the above samples display typical single Lorentzian lines in the same magnetic field region with a g -value of 2.007, which could be attributed to the unpaired electrons on the sulfur atoms . The ZIS sample presented a weak EPR signal response.…”

Section: Resultsmentioning

confidence: 85%

“…As shown in Figure 1d, the above samples display typical single Lorentzian lines in the same magnetic field region with a g-value of 2.007, which could be attributed to the unpaired electrons on the sulfur atoms. 17 The ZIS sample presented a weak EPR signal response. In comparison, the EPR peaks centered at g = 2.007 presented significant enhancement in the ZIS-V S and ZIS-V S /BMO samples, revealing the significantly increased sulfur vacancy concentration in those samples.…”

Section: Resultsmentioning

confidence: 97%

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Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H₂ Production over Surface Sulfur Vacancy-Rich Zn₃In₂S₆/Bi₂MoO₆ Heterojunction Photocatalyst

Xiong,

Liu,

Shen

et al. 2023

Inorg. Chem.

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Section: Resultsmentioning

confidence: 85%

Section: Resultsmentioning

confidence: 97%

Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H₂ Production over Surface Sulfur Vacancy-Rich Zn₃In₂S₆/Bi₂MoO₆ Heterojunction Photocatalyst

Xiong,

Liu,

Shen

et al. 2023

Inorg. Chem.

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“…These defects in photocatalytic hybrid materials might be point defects, volume defects, or the terminations of line defects and planar defects, similar to the surface defects. 44 Defect-engineered photocatalysts have been widely used in various photocatalytic applications such as organic pollutants' degradation, 56,57 pharmaceutical degradation, 58,59 CO 2 reduction, 60,61 H 2 evolution, 62,63 N 2 reduction, 64,65 etc. which directly focus on environmental remediation and sustainability, providing a large scope of development of defect engineering in materials.…”

Section: Basic Understanding and Types Of Defectsmentioning

confidence: 99%

Recent progress in defect‐engineered metal oxides for photocatalytic environmental remediation

Sharma,

Sajwan,

Gouda

et al. 2024

Photochem & Photobiology

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Rapid industrial advancement over the last few decades has led to an alarming increase in pollution levels in the ecosystem. Among the primary pollutants, harmful organic dyes and pharmaceutical drugs are directly released by industries into the water bodies which serves as a major cause of environmental deterioration. This warns of a severe need to find some sustainable strategies to overcome these increasing levels of water pollution and eliminate the pollutants before being exposed to the environment. Photocatalysis is a well‐established strategy in the field of pollutant degradation and various metal oxides have been proven to exhibit excellent physicochemical properties which makes them a potential candidate for environmental remediation. Further, with the aim of rapid industrialization of photocatalytic pollutant degradation technology, constant efforts have been made to increase the photocatalytic activity of various metal oxides. One such strategy is the introduction of defects into the lattice of the parent catalyst through doping or vacancy which plays a major role in enhancing the catalytic activity and achieving excellent degradation rates. This review provides a comprehensive analysis of defects and their role in altering the photocatalytic activity of the material. Various defect‐rich metal oxides like binary oxides, perovskite oxides, and spinel oxides have been summarized for their application in pollutant degradation. Finally, a summary of existing research, followed by the existing challenges along with the potential countermeasures has been provided to pave a path for the future studies and industrialization of this promising field.

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“…It has been reported that metal selenides could accelerate the charge transfer of the hydrogen evolution reaction due to their lower electrical resistance, indicating that metal selenides are promising catalysts. 6,26,27 Recently, it was reported that metal selenides ZnSe, 28 SnSe 2 , 29 NiSe 2 , 16 and MoSe 2 30 were used to form composites with ZnIn 2 S 4 to promote charge migration, thus improving the activity of photocatalytic hydrogen evolution. The inherent properties of CoSe 2 endowed it with high electronic conductivity and proton adsorption ability, while its low cost and stable chemical properties made it a potential substitute for noble metals.…”

Section: Introductionmentioning

confidence: 99%

Construction of core–shell CoSe₂/ZnIn₂S₄ heterostructures for efficient visible-light-driven photocatalytic hydrogen evolution

Xie,

Dong,

Wang

et al. 2024

Dalton Trans.

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Fabrication of Sulfur Defect Rich ZnIn₂S₄/SnSe₂ Photocatalyst with Ohmic Junction for Efficient Water to Hydrogen Energy Conversion

Cited by 13 publications

References 54 publications

Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H₂ Production over Surface Sulfur Vacancy-Rich Zn₃In₂S₆/Bi₂MoO₆ Heterojunction Photocatalyst

Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H₂ Production over Surface Sulfur Vacancy-Rich Zn₃In₂S₆/Bi₂MoO₆ Heterojunction Photocatalyst

Recent progress in defect‐engineered metal oxides for photocatalytic environmental remediation

Construction of core–shell CoSe₂/ZnIn₂S₄ heterostructures for efficient visible-light-driven photocatalytic hydrogen evolution

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Fabrication of Sulfur Defect Rich ZnIn2S4/SnSe2 Photocatalyst with Ohmic Junction for Efficient Water to Hydrogen Energy Conversion

Cited by 13 publications

References 54 publications

Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H2 Production over Surface Sulfur Vacancy-Rich Zn3In2S6/Bi2MoO6 Heterojunction Photocatalyst

Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H2 Production over Surface Sulfur Vacancy-Rich Zn3In2S6/Bi2MoO6 Heterojunction Photocatalyst

Recent progress in defect‐engineered metal oxides for photocatalytic environmental remediation

Construction of core–shell CoSe2/ZnIn2S4 heterostructures for efficient visible-light-driven photocatalytic hydrogen evolution

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Fabrication of Sulfur Defect Rich ZnIn₂S₄/SnSe₂ Photocatalyst with Ohmic Junction for Efficient Water to Hydrogen Energy Conversion

Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H₂ Production over Surface Sulfur Vacancy-Rich Zn₃In₂S₆/Bi₂MoO₆ Heterojunction Photocatalyst

Selective Oxidation of 5-Hydroxymethyl Furfural Coupled with H₂ Production over Surface Sulfur Vacancy-Rich Zn₃In₂S₆/Bi₂MoO₆ Heterojunction Photocatalyst

Construction of core–shell CoSe₂/ZnIn₂S₄ heterostructures for efficient visible-light-driven photocatalytic hydrogen evolution