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Hot-Electron-Induced Photochemical Properties of CdSe/ZnSe Core/Shell Quantum Dots under an Ambient Environment

Jiakuan Zhang, Jiongzhao Li, Zikang Ye, Jiting Cui, Xiaogang Peng

2023Journal of the American Chemical Society52 citationsDOIOpen Access PDF

Abstract

Using CdSe/ZnSe core-shell quantum dots (QDs) as a model, we systematically investigate the photochemical properties of QDs with the ZnSe shells under an ambient environment, which show almost opposite responses to either oxygen or water in comparison with CdSe/CdS core/shell QDs. While the ZnSe shells provide an efficient potential barrier for photoinduced electron transfer from the core to the surface-adsorbed oxygen, they also act as a stepping stone for hot-electron transfer directly from the ZnSe shells to oxygen. The latter process is so effective and competes favorably with ultrafast relaxation of hot electrons from the ZnSe shells to the core QDs, which can completely quench the photoluminescence (PL) with saturated adsorption of oxygen (1 bar) and initiate oxidation of the surface anion sites. Water can slowly eliminate the excess hole to neutralize the positively charged QDs, partially canceling the photochemical effects of oxygen. Alkylphosphines─through two distinctive reaction pathways with oxygen─stop the photochemical effects of oxygen and completely recover PL. With limited thickness (around two monolayers), the ZnS outer shells substantially slow down photochemical effects on CdSe/ZnSe/ZnS core/shell/shell QDs but cannot fully stop PL quenching by oxygen.

Topics & Concepts

ChemistryPhotochemistryOxygenQuantum dotElectron transferPhotoluminescenceQuenching (fluorescence)AdsorptionShell (structure)MonolayerElectronChemical physicsNanotechnologyFluorescenceOptoelectronicsMaterials sciencePhysical chemistryOpticsComposite materialPhysicsQuantum mechanicsBiochemistryOrganic chemistryQuantum Dots Synthesis And PropertiesAdvanced Photocatalysis TechniquesPerovskite Materials and Applications
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