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Cohesive energy model for the optical properties in nanostructured materials of zinc sulfide and cadmium selenide

A. Mustafa, S. Turki Al-Rashid

2024Chalcogenide Letters19 citationsDOIOpen Access PDF

Abstract

Applying the cohesive energy model, this research theoretically studies how the size of nanoparticles affects their optical characteristics. The findings demonstrate that optical characteristics are size-dependent for nanoparticles, with an exponentially growing energy gap for nanoparticles on a scale of less than 4 nm. As the size of nanoparticles is reduced, the absorption wavelength also decreases. Compounds undergo a transition to a higher energy spectral area (blue shift) when their wavelength decreases; this change can make these compounds effective in certain optical nanodevices.

Topics & Concepts

Cadmium selenideZinc selenideCadmium sulfideZinc sulfideMaterials scienceZincCadmiumSulfideMetallurgyNanotechnologyOptoelectronicsQuantum dotQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin FilmsAdvanced Semiconductor Detectors and Materials
Cohesive energy model for the optical properties in nanostructured materials of zinc sulfide and cadmium selenide | Litcius