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Influence of Capping Ligands, Solvent, and Thermal Effects on CdSe Quantum Dot Optical Properties by DFT Calculations

Dídac A. Fenoll, Mariona Sodupe, Xavier Solans‐Monfort

2023ACS Omega20 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Cadmium selenide nanomaterials are very important materials in photonics, catalysis, and biomedical applications due to their optical properties that can be tuned through size, shape, and surface passivation. In this report, static and ab initio molecular dynamics density functional theory (DFT) simulations are used to characterize the effect of ligand adsorption on the electronic properties of the (110) surface of zinc blende and wurtzite CdSe and a (CdSe) 33 nanoparticle. Adsorption energies depend on ligand surface coverage and result from a balance between chemical affinity and ligand–surface and ligand–ligand dispersive interactions. In addition, while little structural reorganization occurs upon slab formation, Cd···Cd distances become shorter and the Se–Cd–Se angles become smaller in the bare nanoparticle model. This originates mid-gap states that strongly influence the absorption optical spectra of nonpassivated (CdSe) 33 . Ligand passivation on both zinc blende and wurtzite surfaces does not induce a surface reorganization, and thus, the band gap remains nonaffected with respect to bare surfaces. In contrast, structural reconstruction is more apparent for the nanoparticle, which significantly increases its highest occupied molecular orbital (HOMO)–lowest unoccupied molecular orbital (LUMO) gap upon passivation. Solvent effects decrease the band gap difference between the passivated and nonpassivated nanoparticles, the maximum of the absorption spectra being blue-shifted around 20 nm by the effect of the ligands. Overall, calculations show that flexible surface cadmium sites are responsible for the appearance of mid-gap states that are partially localized on the most reconstructed regions of the nanoparticle that can be controlled through appropriate ligand adsorption.

Topics & Concepts

PassivationDensity functional theoryHOMO/LUMOCadmium selenideWurtzite crystal structureBand gapLigand (biochemistry)NanoparticleQuantum dotChemical physicsMaterials scienceAdsorptionTime-dependent density functional theoryComputational chemistryChemistryPhysical chemistryNanotechnologyZincMoleculeOptoelectronicsLayer (electronics)Organic chemistryMetallurgyReceptorBiochemistryQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin FilmsNanocluster Synthesis and Applications
Influence of Capping Ligands, Solvent, and Thermal Effects on CdSe Quantum Dot Optical Properties by DFT Calculations | Litcius