What question did this study set out to answer?

This review aims to explore advancements in chalcogenide nanostructures and their impact on optoelectronic performance.

April 12, 2026Open Access

Nanostructuring of chalcogenide materials: a pathway to enhanced optoelectronic performance

Puntos clave

This review aims to explore advancements in chalcogenide nanostructures and their impact on optoelectronic performance.
Analyzed various dimensionalities of chalcogenide nanostructures (0D, 1D/3D, 2D)
Reviewed synthesis techniques for creating nanostructured chalcogenides
Evaluated characterization methods for assessing material properties and performance enhancements
Demonstrated significant improvements in photoluminescence efficiency of nanostructured chalcogenides
Observed changes in bandgap properties beneficial for infrared applications
Noted increased carrier charge mobility and stability in nanostructured materials

Resumen

Chalcogenides have gained prominence in recent years with a focus in optoelectronics due to their tunable bandgaps, phase-change abilities, and infrared applications. However, bulk chalcogenides are not as efficient as nanostructured materials that tailor the material’s morphology, structure, and interfacial dynamics. This paper reviews recent advancements in chalcogenide nanostructures based on dimensionality (0D, 1D/3D, 2D) and analyzes how different synthesis and characterization techniques are used to describe the optoelectronic enhancements such as photoluminescence efficiency, bandgap changes, carrier charge mobility, stability, among many others. This paper provides a framework for future designs of optoelectronic devices using scientific advancement in future systems.

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