Synthesis, Characterization, and Photocatalytic Properties of In2S3, ZnIn2S4, and CdIn2S4 Nanocrystals

Batabyal, Sudip Kumar; Lu, Shu En; Vittal, Jagadese J.

doi:10.1021/acs.cgd.6b00050

Cited by 101 publications

(34 citation statements)

References 38 publications

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“…With the development of photocatalytic technology, current research work mainly focuses on the degradation of organic pollutants 2–4 , hydrogen production in water 5 , reduction of carbon dioxide 6 , selective oxidation of different alcohols 7 , and other kinds of organic transformation reactions 8–10 . Among them, selective oxidation of alcohols to corresponding aldehydes without further oxidation to carboxylic acids and carbon dioxide has become a research hotspot recently 11, 12 .…”

Section: Introductionmentioning

confidence: 99%

Solvothermal synthesis of CdIn2S4 photocatalyst for selective photosynthesis of organic aromatic compounds under visible light

Ling

Zhang

et al. 2017

Sci Rep

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Ternary chalcogenide semiconductor, cadmium indium sulfide (CdIn 2 S 4 ), was prepared by a simple solvothermal method using ethylene glycol as a solvent, as well as indium chloride tetrahydrate (InCl 3 . 4H 2 O), cadmium nitrate tetrahydrate [Cd(NO 3 ) 2 . 4H 2 O], and thiacetamide (TAA) as precursors. The resulted sample was subject to a series of characterizations. It is the first time to use CdIn 2 S 4 sample as a visible light-driven photocatalyst for simultaneous selective redox transformation of organic aromatic compounds. The results indicate that the as-synthesized CdIn 2 S 4 photocatalyst not only has excellent photocatalytic performance compared with pure In 2 S 3 and CdS for the selective oxidation of aromatic alcohols in an oxygen environment, but also shows high photocatalytic redox activities under nitrogen atmosphere. A possible mechanism for the photocatalytic redox reaction in the coupled system was proposed. It is hoped that our current work could extend the applications of CdIn 2 S 4 photocatalyst and provide new insights for selective transformations of organic compounds.The photocatalytic technology has attracted much attention for the scholars of different fields since Fujishima and Honda found that TiO 2 as electrode can decompose water to produce hydrogen and oxygen in 1972 1 . With the development of photocatalytic technology, current research work mainly focuses on the degradation of organic pollutants 2-4 , hydrogen production in water 5 , reduction of carbon dioxide 6 , selective oxidation of different alcohols 7 , and other kinds of organic transformation reactions [8][9][10] . Among them, selective oxidation of alcohols to corresponding aldehydes without further oxidation to carboxylic acids and carbon dioxide has become a research hotspot recently 11,12 . This is because that the selective oxidation of aromatic alcohols into corresponding aldehydes is one of the most fundamental reactions in organic synthesis and fine chemical industry 13 . Traditional oxidants and reductants, such as KMnO 4 , ClO − , Fe, and Pt used in the redox process generally have toxicity, corrosivity, or preciousness. Additionally, these reaction systems are not only quite complicated, but also produce a lot of wastes. Therefore, one of the challenges as well as opportunities faced by the researchers is to develop a high-efficienct and environmental friendly method for selective organic transformations under mild conditions 14 .It has been reported that semiconductor photocatalysts can be applied in the selective oxidation of alcohols to aldehydes rather than CO 2 and H 2 O in the final products 15 . For example, Xu's group reported that CdS was introduced as an efficient visible light photocatalyst for selective oxidation of saturated primary C-H bonds under ambient conditions 16 . Panda's group found efficient photocatalytic selective nitro-reduction and C-H bond oxidation over ultrathin sheet mediated CdS flowers 17 . Wang and his coworkers reported molecular and textural engineering of conjugated carbon...

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Section: Introductionmentioning

confidence: 99%

Solvothermal synthesis of CdIn2S4 photocatalyst for selective photosynthesis of organic aromatic compounds under visible light

Ling

Zhang

et al. 2017

Sci Rep

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“…Among them, pure ZnS and CdS were subsequently obtained by the combustion of ZnS@C and CdS@C (to remove carbon) and utilized as moderately active photocatalysts for degradation of MB under visible-light illumination. Batabyal and coworkers developed a one-pot method, i.e., thermolysis of single- or dual-source coordination polymer precursors in the presence of different surfactants, to synthesize nanocrystals of In 2 S 3 , ZnIn 2 S 4 , and CdIn 2 S 4 [133]. The synthesized In 2 S 3 nanocrystals showed efficient photocatalytic degradation of MB under UV light irradiation, and the photocatalytic activities of the ternary chalcogenides of In 2 S 3 were considerably enhanced.…”

Section: Photocatalytic Pollutant Degradationmentioning

confidence: 99%

Recent Progress on Engineering Highly Efficient Porous Semiconductor Photocatalysts Derived from Metal–Organic Frameworks

2019

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Highlights In this review, we survey the recent developments in the fabrication of metal–organic framework (MOF)-derived porous semiconductor photocatalysts toward four kinds of energy-/environment-related reactions.A comprehensive summary of highly efficient MOF-derived photocatalysts, particularly porous metal oxides and metal sulfides, and their heterostructures are provided.Enhanced photocatalytic performance achieved with MOF-derived porous heterostructures as the photocatalyst is discussed in detail.

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“…An example of organo‐In complexed with a mixed alkydithiocarbamate ligand, [Et 2 In(S 2 CNMe n Bu)], gave β ‐In 2 S 3 thin films using the standard MOCVD method , . Alkyl thiolates, thiobenzoates, thiocarbazates, thiobiurets, thiophosphinates and thiocarboxylates, are also examples of SSPs which have been exploited in the fabrication of In x S y nanoparticles and thin films displaying different phases and diverse morphological features.…”

Section: Introductionmentioning

confidence: 99%

Important Phase Control of Indium Sulfide Nanomaterials by Choice of Indium(III) Xanthate Precursor and Thermolysis Temperature

et al. 2019

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Four In(III) xanthate complexes, [In(S2COR)3] where R = Me, Et, iPr and sBu, respectively, were synthesized, characterized and subsequently used as single source molecular precursors via a solventless thermolysis route to obtain indium sulfide materials. By choice of precursor and reaction temperature crystalline powders of tetragonal In2S3, cubic In2S3 and cubic In2.77S4 were acquired. The phase identification and purity were conducted through examination of the experimental powder X‐ray diffraction patterns relative to the simulated patterns for single X‐ray crystal diffraction.

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Synthesis, Characterization, and Photocatalytic Properties of In₂S₃, ZnIn₂S₄, and CdIn₂S₄ Nanocrystals

Cited by 101 publications

References 38 publications

Solvothermal synthesis of CdIn2S4 photocatalyst for selective photosynthesis of organic aromatic compounds under visible light

Solvothermal synthesis of CdIn2S4 photocatalyst for selective photosynthesis of organic aromatic compounds under visible light

Recent Progress on Engineering Highly Efficient Porous Semiconductor Photocatalysts Derived from Metal–Organic Frameworks

Important Phase Control of Indium Sulfide Nanomaterials by Choice of Indium(III) Xanthate Precursor and Thermolysis Temperature

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