Morphology Controlled Synthesis of SnS<sub>2</sub> Nanomaterial for Promoting Photocatalytic Reduction of Aqueous Cr(VI) under Visible Light

Mondal, Chanchal; Ganguly, Mainak; Pal, Jayanta; Roy, Anindita; Jana, Jayasmita; Pal, Tarasankar

doi:10.1021/la500509c

Cited by 176 publications

(75 citation statements)

References 36 publications

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“…3b) the presence of peak at around 161-162 eV for S 2À in the SnS 2 nanoparticles. The observed binding energies of Sn 4+ and S 2À are in good agreement with the reported data of SnS 2 [20]. Simply, the binding energy of Sn 3d and S 2p of SnS 2 -M2 was slightly shifted a higher region compared with SnS 2 -A, demonstrating slight changes in the outer electron cloud density of Sn ions [21].…”

Section: Samplessupporting

confidence: 90%

Facile microwave-assisted synthesis of SnS2 nanoparticles for visible-light responsive photocatalyst

Park

Selvaraj

et al. 2015

Journal of Industrial and Engineering Chemistry

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Section: Samplessupporting

confidence: 90%

Facile microwave-assisted synthesis of SnS2 nanoparticles for visible-light responsive photocatalyst

Park

Selvaraj

et al. 2015

Journal of Industrial and Engineering Chemistry

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“…7 The observed Raman peaks at 312.83 cm -1 and 312.48 cm -1 for samples 2 and 3 are closer to the peaks at 313 cm -1 exhibited by microplates made from sulfurizing F-doped SnO 2 14 and 312 cm -1 for nanoflowers and nanoyarns made by a modified hydrothermal method. 17 Our observed peak is higher than the 311 cm -1 peak of nanosheets made hydrothermally, 18 the 311 cm -1 peak of SnS 2 nanoparticles, 26 and the 311 cm -1 peak of exfoliated nanoflakes made by soaking bulk SnS 2 in butyllithium. 9 The position of Raman peak shift has been modeled using three force constants: intra-sandwich metal-ligand (M-L) bond stretching, intra-sandwich M-L-M bond bending, and inter-sandwich L-L bond stretching.…”

Section: Shape Of the Bottom Layers Of An Island On A Large Flakementioning

confidence: 50%

Large Single Crystal SnS₂ Flakes Synthesized from Coevaporation of Sn and S

Yang¹,

Dash²,

Littlejohn³

et al. 2016

Crystal Growth & Design

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Remarkable properties of layered metal dichalcogenides and their potential applications in various fields have raised intense interest worldwide. We report tens of microns-sized ultrathin single crystal SnS 2 flakes grown on amorphous substrates using a simple one-step thermal coevaporation process. X-ray pole figure analysis reveals that a majority of flakes are oriented with the (0001) plane parallel to the substrate and a preferred fiber texture. For few-layer-thick SnS 2 , Moire patterns of 6-fold and 12-fold symmetries are observed by transmission electron microscopy imaging and diffraction. These patterns result from the relative rotation between SnS 2 layers in the ultrathin flake. The 12-fold symmetry is consistent with a known quasicrystal pattern. The photoluminescence spectrum supports that these ultrathin flakes possess a direct bandgap. Carrier lifetime measured by time resolved photoluminescence of a single flake is a few nanoseconds. These results improve our understanding of the formation and shape of ultrathin SnS 2 flakes.

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“…The experimental set up for the preparation of nanomaterial and single crystal is known as modied hydrothermolysis (MHT). 22 It leads to the formation of a black colored single crystal. A grey color precipitate was obtained initially and with prolonged reaction time it forms single crystal.…”

Section: Methodsmentioning

confidence: 99%

Modified hydrothermal reaction (MHT) for CoV₂O₆·4H₂O nanowire formation and the transformation to CoV₂O₆·2H₂O single-crystals for antiferromagnetic ordering and spin-flop

et al. 2014

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A modified hydrothermal protocol (MHT) has been adopted for the synthesis of a single-crystal of CoV 2 O 6 $2H 2 O. The crystals grew as a result of prolonged hydrothermal reaction between precursor salts of CoCl 2 and ammonium vanadate. At first, the adopted reaction conditions resulted in nanowires of CoV 2 O 6 $4H 2 O. Then with increased reaction time, nanowires changed to single crystals of molecular formula CoV 2 O 6 $2H 2 O. The nanowires have lengths of several tens of micrometers and average diameter of 100 nm. The well defined structure crystallizes in the orthorhombic crystal system having space group Pnma and it displays a ¼ 5.5647 (2)Here, each vanadium atom is tetrahedrally connected to four oxygens where two oxygens are connected to vanadium atoms and another two connected to cobalt atoms. Magnetic moment measurement of the nanowires indicates that antiferromagnetic ordering is observed at around 14.9 K and 6.8 K and field induced antiferromagnetic to ferromagnetic (spin-flop-type) transitions have been observed at a low temperature (5-8.8 K) range while these are absent in the as-synthesized single crystals.

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Morphology Controlled Synthesis of SnS₂ Nanomaterial for Promoting Photocatalytic Reduction of Aqueous Cr(VI) under Visible Light

Cited by 176 publications

References 36 publications

Facile microwave-assisted synthesis of SnS2 nanoparticles for visible-light responsive photocatalyst

Facile microwave-assisted synthesis of SnS2 nanoparticles for visible-light responsive photocatalyst

Large Single Crystal SnS₂ Flakes Synthesized from Coevaporation of Sn and S

Modified hydrothermal reaction (MHT) for CoV₂O₆·4H₂O nanowire formation and the transformation to CoV₂O₆·2H₂O single-crystals for antiferromagnetic ordering and spin-flop

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Morphology Controlled Synthesis of SnS2 Nanomaterial for Promoting Photocatalytic Reduction of Aqueous Cr(VI) under Visible Light

Cited by 176 publications

References 36 publications

Facile microwave-assisted synthesis of SnS2 nanoparticles for visible-light responsive photocatalyst

Facile microwave-assisted synthesis of SnS2 nanoparticles for visible-light responsive photocatalyst

Large Single Crystal SnS2 Flakes Synthesized from Coevaporation of Sn and S

Modified hydrothermal reaction (MHT) for CoV2O6·4H2O nanowire formation and the transformation to CoV2O6·2H2O single-crystals for antiferromagnetic ordering and spin-flop

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Morphology Controlled Synthesis of SnS₂ Nanomaterial for Promoting Photocatalytic Reduction of Aqueous Cr(VI) under Visible Light

Large Single Crystal SnS₂ Flakes Synthesized from Coevaporation of Sn and S

Modified hydrothermal reaction (MHT) for CoV₂O₆·4H₂O nanowire formation and the transformation to CoV₂O₆·2H₂O single-crystals for antiferromagnetic ordering and spin-flop