Sonochemically Synthesized 3D Assemblies of Close-Packed In<sub>2</sub>S<sub>3</sub>Quantum Dots: Structure, Size Dependent Optical and Electrical Properties

Pejova, Biljana; Bineva, I.

doi:10.1021/jp310047t

Cited by 19 publications

(19 citation statements)

References 53 publications

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“…In the case of bulk cadmium selenide, the thermodynamically most stable modification at ambient temperature and pressure is the hexagonal (wurtzite) polymorph of this compound. The situation, however, that we encounter in the present case, is similar to those that we have reported before in the case of other compound semiconductor systems [59][60][61]. Namely, as a consequence of the ultrasmall dimensions of nanocrystals constituting the 3D array in the form of compact thin film or bulk precipitate, it is the cubic form that is actually being observed under ambient conditions.…”

Section: Structural Investigations Of Low-dimensionalsupporting

confidence: 88%

“…We have further proceeded with careful analysis of the semiconductor absorption function of the form (28) to determine the band gap energy of the films deposited under various conditions, as well as of the thermally annealed films. We did this by a combined interpolation-extrapolation procedure, described in details in our previous publications [59][60][61]73]. It is necessary to implement such algorithm as the parabolic approximation for the dispersion relation is, strictly speaking, valid only in the neighborhood of the borders of the first Brillouin zone.…”

Section: 3mentioning

confidence: 99%

See 1 more Smart Citation

Sonochemically assisted colloidal route to CdSe quantum dot assemblies: an alternative way to further fine-tune the size-dependent properties

Pejova

Bineva

2016

J Mater Sci: Mater Electron

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Continuous-wave heterogeneous sonochemical method was developed to synthesize 3D assemblies composed by QDs of metastable (cubic) modification of CdSe with sphalerite structural type. 3D QD assemblies were deposited in thin film form and as bulk precipitates. Structure, surface morphology, optical absorption as well as charge carriers' and phonon confinement effects were studied in details. The average nanocrystal radius, calculated by the Scherrer and Williamson-Hall methods, diminishes from 2.7 nm for samples synthesized by conventional colloidal chemical route to 2.0 nm for samples synthesized by sonochemical route. Upon post-deposition thermal annealing this value increases to 12.0 nm. QD size decrease is followed by increase of the uni-directional lattice strain and dislocation density (as defined by Hirsch), as well as by decrease of the lattice constant value. Previous findings were justified by analysis of X-ray diffraction peaks shape, which were found to be dominated by the particle size-distribution, instead of non-uniform strain. The energy of the fundamental direct C v 8 ! C c 6 interband electronic transition, computed from optical absorption data within parabolic approximation for the dispersion relation, shifts from 2.67 eV for sonochemically deposited samples and 2.08 eV for chemically deposited ones, to 1.77 eV upon post-deposition thermal treatment (close to the bulk value of 1.74 eV). The type of ''interband'' transitions does not change upon dimensionality reduce. Enhanced band gap energy blue shift upon average QD size decrease is followed by oscillator strength increase. Such trends were rationalized in terms of 3D confinement effects on charge carriers' motion. Experimentally observed band gap energies agree very well with the predictions of the effective mass model of Brus. The next direct interband electronic transition, from the spin-orbit split component of the valence band to the conduction band, has been detected and analyzed. The 1LO bands in the Raman spectra of chemically and sonochemically deposited samples appear at 206 and 204 cm -1 , as compared to the bulk value of 210 cm -1 . The extent of homogeneous broadening of the corresponding band is larger in sonochemically deposited samples, indicating enhanced frequency of phonon-phonon collisions in smaller QDs. The observed frequency shifts are dominated by phonon-dispersion terms, instead of lattice contraction.

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Section: Structural Investigations Of Low-dimensionalsupporting

confidence: 88%

Section: 3mentioning

confidence: 99%

Sonochemically assisted colloidal route to CdSe quantum dot assemblies: an alternative way to further fine-tune the size-dependent properties

Pejova

Bineva

2016

J Mater Sci: Mater Electron

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“…4f. It is evident that the V bi and W d are the same as similar QDs devices (such as the graphene quantum dots) [30], but the N is larger by an order of magnitude at zero bias. This explains the excellent performances of the device as compared to other QDs device [31].…”

Section: Resultsmentioning

confidence: 99%

In2S3 Quantum Dots: Preparation, Properties and Optoelectronic Application

Tang

Zhao

et al. 2019

Nanoscale Res Lett

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Low-dimensional semiconductors exhibit remarkable performances in many device applications because of their unique physical, electrical, and optical properties. In this paper, we report a novel and facile method to synthesize In 2 S 3 quantum dots (QDs) at atmospheric pressure and room temperature conditions. This involves the reaction of sodium sulfide with indium chloride and using sodium dodecyl sulfate (SDS) as a surfactant to produce In 2 S 3 QDs with excellent crystal quality. The properties of the as-prepared In 2 S 3 QDs were investigated and photodetectors based on the QDs were also fabricated to study the use of the material in optoelectronic applications. The results show that the detectivity of the device stabilizes at ~ 10 13 Jones at room temperature under 365 nm ultraviolet light irradiation at reverse bias voltage.

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“…17,18 At atmospheric pressure, In 2 S 3 is found to crystallize into three different structural forms, defective cubic structure (a-In 2 S 3 ), defective spinel structure (b-In 2 S 3 ), and layered hexagonal structure (g-In 2 S 3 ). [19][20][21][22][23][24][25][26][27][28][29][30] b-In 2 S 3 is the stable state at room temperature with a tetragonal structure or cubic form, which is an n-type semiconductor with a suitable band gap of 1.9-2.3 eV corresponding to visible light region. 31 It is well-known that the size and morphology of nanomaterials have an important inuence on their properties, such as the movement of electrons and holes and the transportation related to phonons.…”

Section: Introductionmentioning

confidence: 99%

Facile solvothermal synthesis of 3D flowerlike β-In₂S₃ microspheres and their photocatalytic activity performance

et al. 2014

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Three-dimension (3D) flowerlike b-In 2 S 3 microspheres have been successfully synthesized by a facile solvothermal method using thioacetamide (TAA, CH 3 CSNH 2 ) as both a sulfur source and ligand of In 3+ in the ethanol-water system. The morphologies of In 2 S 3 can be controlled by simply changing the volume ratio of ethanol to water in the solvent. The experimental results demonstrate that 3D flowerlike b-In 2 S 3 microspheres undergo surface recrystallization, selective absorption and oriented growth processes. A detailed morphology formation mechanism has been proposed and discussed. Furthermore, the 3D flowerlike b-In 2 S 3 microspheres show relatively high visible-light photocatalytic activity for methyl orange (MO) degradation, which can be attributed to both the relative higher BET surface area and advantageous optical properties.

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Sonochemically Synthesized 3D Assemblies of Close-Packed In₂S₃Quantum Dots: Structure, Size Dependent Optical and Electrical Properties

Cited by 19 publications

References 53 publications

Sonochemically assisted colloidal route to CdSe quantum dot assemblies: an alternative way to further fine-tune the size-dependent properties

Sonochemically assisted colloidal route to CdSe quantum dot assemblies: an alternative way to further fine-tune the size-dependent properties

In2S3 Quantum Dots: Preparation, Properties and Optoelectronic Application

Facile solvothermal synthesis of 3D flowerlike β-In₂S₃ microspheres and their photocatalytic activity performance

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Sonochemically Synthesized 3D Assemblies of Close-Packed In2S3Quantum Dots: Structure, Size Dependent Optical and Electrical Properties

Cited by 19 publications

References 53 publications

Sonochemically assisted colloidal route to CdSe quantum dot assemblies: an alternative way to further fine-tune the size-dependent properties

Sonochemically assisted colloidal route to CdSe quantum dot assemblies: an alternative way to further fine-tune the size-dependent properties

In2S3 Quantum Dots: Preparation, Properties and Optoelectronic Application

Facile solvothermal synthesis of 3D flowerlike β-In2S3 microspheres and their photocatalytic activity performance

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Product

Resources

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Sonochemically Synthesized 3D Assemblies of Close-Packed In₂S₃Quantum Dots: Structure, Size Dependent Optical and Electrical Properties

Facile solvothermal synthesis of 3D flowerlike β-In₂S₃ microspheres and their photocatalytic activity performance