Abstract
Quantum dots (QDs) are known for their size-dependent optical properties, narrow emission bands, and high photoluminescence quantum yield (PLQY), which make them interesting candidates for optoelectronic applications. In particular, InP QDs are receiving a lot of attention since they are less toxic than other QD materials and are hence suitable for consumer applications. Most of these applications, such as LEDs, photovoltaics, and lasing, involve charging QDs with electrons and/or holes. However, charging of QDs is not easy nor innocent, and the effect of charging on the composition and properties of InP QDs is not yet well understood. This work provides theoretical insight into electron charging of the InP core and InP/ZnSe QDs. Density functional theory calculations are used to show that charging of InP-based QDs with electrons leads to the formation of trap states if the QD contains In atoms that are undercoordinated and thus have less than four bonds to neighboring atoms. InP core-only QDs have such atoms at the surface, which are responsible for the formation of trap states upon charging with electrons. We show that InP/ZnSe core-shell models with all In atoms fully coordinated can be charged with electrons without the formation of trap states. These results show that undercoordinated In atoms should be avoided at all times for QDs to be stably charged with electrons.
Original language | English |
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Pages (from-to) | 18576-18583 |
Number of pages | 8 |
Journal | ACS Nano |
Volume | 17 |
Issue number | 18 |
DOIs | |
Publication status | Published - 2023 |
Keywords
- DFT
- electronic charging
- quantum dots
- trap states
- undercoordination
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Data underlying the publication: Guilty as Charged: The Role of Undercoordinated Indium in Electron-Charged Indium Phosphide Quantum Dots
Stam, M. (Creator), du Fossé, I. (Creator), Infante, I. (Creator) & Houtepen, A. J. (Creator), TU Delft - 4TU.ResearchData, 21 Aug 2024
DOI: 10.4121/457ade10-97f7-40ec-b24a-aae1fe66aa65
Dataset/Software: Dataset