Computational study of magic-size Cdse clusters with complementary passivation by carboxylic and amine ligands

Oleksandr Voznyy; Junais Habeeb Mokkath; Ankit Jain; Edward H. Sargent; Udo Schwingenschlögl

doi:10.1021/acs.jpcc.5b10908

Computational study of magic-size Cdse clusters with complementary passivation by carboxylic and amine ligands

Oleksandr Voznyy, Junais Habeeb Mokkath, Ankit Jain, Edward H. Sargent, Udo Schwingenschlögl^*

^*Corresponding author for this work

Chemistry

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27 Scopus citations

Abstract

The electronic and optical properties of tetrahedral CdSe magic clusters (average diameter.5 nm) protected by carboxyl and amine ligands, which correspond to previously reported experimental structures, are studied using density functional theory. We find extreme ligand packing densities, capping every single dangling bond of the inorganic core, strong dependence of the Z-type metal carboxylate binding on the amount of excess amine, and potential for improved photoluminescence upon replacing phenyl ligands with alkanes. The computed absorption spectra of the Cd₃₅Se₂₀ cluster agree well with experiments, resolving the 0.2 eV splitting of the first exciton peak due to spin-orbit coupling. We discuss the origin of the significant broadening of the optical spectra as due to phonons and structural variations in the ligand configurations and inorganic core apexes.

Original language	English (US)
Pages (from-to)	10015-10019
Number of pages	5
Journal	Journal of Physical Chemistry C
Volume	120
Issue number	18
DOIs	https://doi.org/10.1021/acs.jpcc.5b10908
State	Published - May 12 2016

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Energy(all)
Physical and Theoretical Chemistry
Surfaces, Coatings and Films

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abstract = "The electronic and optical properties of tetrahedral CdSe magic clusters (average diameter.5 nm) protected by carboxyl and amine ligands, which correspond to previously reported experimental structures, are studied using density functional theory. We find extreme ligand packing densities, capping every single dangling bond of the inorganic core, strong dependence of the Z-type metal carboxylate binding on the amount of excess amine, and potential for improved photoluminescence upon replacing phenyl ligands with alkanes. The computed absorption spectra of the Cd35Se20 cluster agree well with experiments, resolving the 0.2 eV splitting of the first exciton peak due to spin-orbit coupling. We discuss the origin of the significant broadening of the optical spectra as due to phonons and structural variations in the ligand configurations and inorganic core apexes.",

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AU - Voznyy, Oleksandr

AU - Mokkath, Junais Habeeb

AU - Jain, Ankit

AU - Sargent, Edward H.

AU - Schwingenschlögl, Udo

PY - 2016/5/12

Y1 - 2016/5/12

N2 - The electronic and optical properties of tetrahedral CdSe magic clusters (average diameter.5 nm) protected by carboxyl and amine ligands, which correspond to previously reported experimental structures, are studied using density functional theory. We find extreme ligand packing densities, capping every single dangling bond of the inorganic core, strong dependence of the Z-type metal carboxylate binding on the amount of excess amine, and potential for improved photoluminescence upon replacing phenyl ligands with alkanes. The computed absorption spectra of the Cd35Se20 cluster agree well with experiments, resolving the 0.2 eV splitting of the first exciton peak due to spin-orbit coupling. We discuss the origin of the significant broadening of the optical spectra as due to phonons and structural variations in the ligand configurations and inorganic core apexes.

AB - The electronic and optical properties of tetrahedral CdSe magic clusters (average diameter.5 nm) protected by carboxyl and amine ligands, which correspond to previously reported experimental structures, are studied using density functional theory. We find extreme ligand packing densities, capping every single dangling bond of the inorganic core, strong dependence of the Z-type metal carboxylate binding on the amount of excess amine, and potential for improved photoluminescence upon replacing phenyl ligands with alkanes. The computed absorption spectra of the Cd35Se20 cluster agree well with experiments, resolving the 0.2 eV splitting of the first exciton peak due to spin-orbit coupling. We discuss the origin of the significant broadening of the optical spectra as due to phonons and structural variations in the ligand configurations and inorganic core apexes.

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Computational study of magic-size Cdse clusters with complementary passivation by carboxylic and amine ligands

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