Inverted CdSe/PbSe Core/Shell Quantum Dots with Electrically Accessible Photocarriers

Vladimir Sayevich; Whi Dong Kim; Zachary L. Robinson; Oleg V. Kozlov; Clément Livache; Namyoung Ahn; Heeyoung Jung; Victor I. Klimov

doi:10.1021/acsenergylett.4c03502

Inverted CdSe/PbSe Core/Shell Quantum Dots with Electrically Accessible Photocarriers

Vladimir Sayevich, Whi Dong Kim, Zachary L. Robinson, Oleg V. Kozlov, Clément Livache, Namyoung Ahn, Heeyoung Jung, Victor I. Klimov

Research output: Contribution to journal › Article › peer-review

Abstract

Heterostructured quantum dots (QDs) based on narrow-bandgap PbSe and wide-bandgap CdSe have been studied for applications in near-infrared light sources, photodetection, and solar energy conversion. A common structural motif is a QD consisting of a PbSe core enclosed in a CdSe shell. However, the CdSe shell complicates extraction of band-edge charge carriers from the QD. Therefore, conventional PbSe/CdSe QDs are not suitable for application in photoelectric devices. Here we report inverted CdSe/PbSe core/shell QDs that overcome this drawback. In these structures, both the electron and hole exhibit a significant degree of shell localization and can therefore be easily extracted from the QD. To create these structures, we employ a thin, atomically controlled wetting layer that homogenizes the CdSe core surface and thus promotes directionally uniform growth of the PbSe shell. The synthesized CdSe/PbSe QD films exhibit good photocarrier transport, making them suitable for application in photoelectric devices.

Original language	English
Pages (from-to)	1062-1071
Number of pages	10
Journal	ACS Energy Letters
Volume	10
Issue number	2
DOIs	https://doi.org/10.1021/acsenergylett.4c03502
Publication status	Published - 2025 Feb 14

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Publisher Copyright:
© 2025 The Authors. Published by American Chemical Society.

All Science Journal Classification (ASJC) codes

Chemistry (miscellaneous)
Renewable Energy, Sustainability and the Environment
Fuel Technology
Energy Engineering and Power Technology
Materials Chemistry

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10.1021/acsenergylett.4c03502

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title = "Inverted CdSe/PbSe Core/Shell Quantum Dots with Electrically Accessible Photocarriers",

abstract = "Heterostructured quantum dots (QDs) based on narrow-bandgap PbSe and wide-bandgap CdSe have been studied for applications in near-infrared light sources, photodetection, and solar energy conversion. A common structural motif is a QD consisting of a PbSe core enclosed in a CdSe shell. However, the CdSe shell complicates extraction of band-edge charge carriers from the QD. Therefore, conventional PbSe/CdSe QDs are not suitable for application in photoelectric devices. Here we report inverted CdSe/PbSe core/shell QDs that overcome this drawback. In these structures, both the electron and hole exhibit a significant degree of shell localization and can therefore be easily extracted from the QD. To create these structures, we employ a thin, atomically controlled wetting layer that homogenizes the CdSe core surface and thus promotes directionally uniform growth of the PbSe shell. The synthesized CdSe/PbSe QD films exhibit good photocarrier transport, making them suitable for application in photoelectric devices.",

author = "Vladimir Sayevich and Kim, {Whi Dong} and Robinson, {Zachary L.} and Kozlov, {Oleg V.} and Cl{\'e}ment Livache and Namyoung Ahn and Heeyoung Jung and Klimov, {Victor I.}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society.",

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doi = "10.1021/acsenergylett.4c03502",

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AU - Sayevich, Vladimir

AU - Kim, Whi Dong

AU - Robinson, Zachary L.

AU - Kozlov, Oleg V.

AU - Livache, Clément

AU - Ahn, Namyoung

AU - Jung, Heeyoung

AU - Klimov, Victor I.

PY - 2025/2/14

Y1 - 2025/2/14

N2 - Heterostructured quantum dots (QDs) based on narrow-bandgap PbSe and wide-bandgap CdSe have been studied for applications in near-infrared light sources, photodetection, and solar energy conversion. A common structural motif is a QD consisting of a PbSe core enclosed in a CdSe shell. However, the CdSe shell complicates extraction of band-edge charge carriers from the QD. Therefore, conventional PbSe/CdSe QDs are not suitable for application in photoelectric devices. Here we report inverted CdSe/PbSe core/shell QDs that overcome this drawback. In these structures, both the electron and hole exhibit a significant degree of shell localization and can therefore be easily extracted from the QD. To create these structures, we employ a thin, atomically controlled wetting layer that homogenizes the CdSe core surface and thus promotes directionally uniform growth of the PbSe shell. The synthesized CdSe/PbSe QD films exhibit good photocarrier transport, making them suitable for application in photoelectric devices.

AB - Heterostructured quantum dots (QDs) based on narrow-bandgap PbSe and wide-bandgap CdSe have been studied for applications in near-infrared light sources, photodetection, and solar energy conversion. A common structural motif is a QD consisting of a PbSe core enclosed in a CdSe shell. However, the CdSe shell complicates extraction of band-edge charge carriers from the QD. Therefore, conventional PbSe/CdSe QDs are not suitable for application in photoelectric devices. Here we report inverted CdSe/PbSe core/shell QDs that overcome this drawback. In these structures, both the electron and hole exhibit a significant degree of shell localization and can therefore be easily extracted from the QD. To create these structures, we employ a thin, atomically controlled wetting layer that homogenizes the CdSe core surface and thus promotes directionally uniform growth of the PbSe shell. The synthesized CdSe/PbSe QD films exhibit good photocarrier transport, making them suitable for application in photoelectric devices.

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Inverted CdSe/PbSe Core/Shell Quantum Dots with Electrically Accessible Photocarriers

Abstract

Bibliographical note

All Science Journal Classification (ASJC) codes

UN SDGs

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