Luminescence and Morphological Kinetics of  Functionalized ZnS Colloidal Nanocrystals

Sana, Prabha; Hashmi, Lubna; Malik, М. M.

doi:10.5402/2012/621908

Cited by 13 publications

(5 citation statements)

References 40 publications

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“…Bulk ZnS has a band gap absorption at about 320 nm. [16] Based on our former reported results, the blue shift might come from the quantum confinement effects caused by internal sub-nanostructures of the ZnS/ethylenediamine microsheets had. [13][14][15]…”

Section: Resultsmentioning

confidence: 79%

ZnS/Ethylenediamine Hybrid Micrometer Sheets Synthesized<i> In Situ</i> on Zn Foils

Wang

Fan

Zhao

et al. 2012

AMR

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Section: Resultsmentioning

confidence: 79%

ZnS/Ethylenediamine Hybrid Micrometer Sheets Synthesized<i> In Situ</i> on Zn Foils

Wang

Fan

Zhao

et al. 2012

AMR

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“…Subsequently, ZnS with higher permittivity is selected as a dielectric. The permittivity of ZnS is 5.52 and it has many practical applications in the visible range [25,26]. For the silver-ZnS couple, the impedance matching condition results in a reasonable value for the η given by η = 4.2.…”

Section: Superlens Designmentioning

confidence: 99%

Analysis and Design of an Object-Independent Superlens

2016

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A new design for the multilayer superlens, with the sub-wavelength imaging ability for various 2D objects in the visible range, is introduced and analyzed. The designed superlens will be more versatile for practical applications. A rigorous and efficient approach based on the method of moments is used to study the imaging performance of this structure. The imaging performance of the proposed superlens is evaluated using the correlation coefficient. In this work, the closed-form dyadic Green's functions in spatial domain, needed for the method of moments solutions, are obtained by applying the complex image method. Besides, the numerical integration is exploited to verify this method. The imaging results obtained via our approach are examined by comparison with the finite element method simulations that reveal good efficiency and accuracy of the proposed method.

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“…The photoluminescence of ZnS quantum dots is complex, as it is influenced by several synthetic conditions like refluxing time, capping agent and its concentration, reaction temperature, agitation etc. [51,52] and crystal sizes and shapes [53,54]. It is reported in literature that the emission spectrum of ZnS can be adjusted in a very broad range from 300 nm to 550 nm [55].…”

Section: Photoluminescence Studiesmentioning

confidence: 99%

Application of thiol capped ZnS quantum dots as a fluorescence probe for determination of tetracycline residues

Mili

Hsine

Chevalier

et al. 2023

Solid State Communications

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Luminescence and Morphological Kinetics of Functionalized ZnS Colloidal Nanocrystals

Cited by 13 publications

References 40 publications

ZnS/Ethylenediamine Hybrid Micrometer Sheets Synthesized<i> In Situ</i> on Zn Foils

ZnS/Ethylenediamine Hybrid Micrometer Sheets Synthesized<i> In Situ</i> on Zn Foils

Analysis and Design of an Object-Independent Superlens

Application of thiol capped ZnS quantum dots as a fluorescence probe for determination of tetracycline residues

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