2014
DOI: 10.1007/s10854-014-2029-5
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Influence of Mn/S molar ratio on the microstructure and optical properties of MnS nanocrystals synthesized by wet chemical technique

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Cited by 9 publications
(6 citation statements)
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“…[ 29 ] Nano MnS formed by a mild synthetic route exhibited a blue color caused by Mn 2+ 3d‐configuration. [ 43 ] Dhandayuthapani et al. [ 44 ] tuned the morphology of metastable MnS films and hence its optical properties; they found sex sub emitted bands, the first one at 360 nm corresponding to wurtzite phase (γ‐MnS), while the other five bands (377, 410, 459, 494, and 506) nm related to zinc blende (β‐MnS) phase of lowest energy Mn 2+ d–d transitions of 6 A 1 (S) → 4 E( 4 D), 6 A 1 (S) → 4 T 2 ( 4 D), 6 A 1 (S) → 4 A 1 , 4 E 4 G, 6 A 1 (S) → 4 T 2 ( 4 G), and 6 A 1 (S) → 4 T 1 ( 4 G), respectively.…”
Section: Resultsmentioning
confidence: 99%
“…[ 29 ] Nano MnS formed by a mild synthetic route exhibited a blue color caused by Mn 2+ 3d‐configuration. [ 43 ] Dhandayuthapani et al. [ 44 ] tuned the morphology of metastable MnS films and hence its optical properties; they found sex sub emitted bands, the first one at 360 nm corresponding to wurtzite phase (γ‐MnS), while the other five bands (377, 410, 459, 494, and 506) nm related to zinc blende (β‐MnS) phase of lowest energy Mn 2+ d–d transitions of 6 A 1 (S) → 4 E( 4 D), 6 A 1 (S) → 4 T 2 ( 4 D), 6 A 1 (S) → 4 A 1 , 4 E 4 G, 6 A 1 (S) → 4 T 2 ( 4 G), and 6 A 1 (S) → 4 T 1 ( 4 G), respectively.…”
Section: Resultsmentioning
confidence: 99%
“…Complicated view of the UV-vis absorbance spectra similar to presented in Fig. 4a was treated in [11] as formation of β-and γ-MnS/citrate NPs where two absorbance peaks about 206÷232 nm and 263÷265 nm as well as the broad absorption extending up to 800 nm were observed. However we take into account that the peaks positions are close to λmax.…”
Section: Mns/citrate Nps Synthesis 231 Series Amentioning
confidence: 95%
“…High-temperature solvothermal reaction seems to be effective for fabricating various structures of the MnS NPs, in particular, nanorods, mono-and branched wires, hollow spheres and cubes, porous networks, coral shaped and floral-like [5][6][7][8][9] nanostructures. However less data are available about a chemical bath deposition in aqua media at ambient temperatures [11,12]. Short a list of substances is known as capping agents for MnS NPs, namely, L-сysteine [2, 10 and 13], citrateions [11], EDTA [14], palmitoyl piperidinium chloride and stearoyl piperidinium chloride [15] and starch even [12].…”
Section: Introductionmentioning
confidence: 99%
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“…Further, a considerable effort has been made by researchers to modify the crystalline phases and surface morphologies of MnS [11,12]. Veeramanikandasamy et al had modified the microstructure and optical properties of MnS using different Mn/S ratio [13]. Further, Shi et al had studied the effect of hydrothermal annealing on the structure, morphology and optical properties of MnS films [14].…”
Section: Introductionmentioning
confidence: 99%