Direct Evaluation of the Quantum Confinement Effect in Single Isolated Ge Nanocrystals

Oded Millo; Isacc Balberg; Doron Azulay; Tapas K. Purkait; Anindya K. Swarnakar; Eric Rivard; Jonathan G.C. Veinot

doi:10.1021/acs.jpclett.5b01541

Direct Evaluation of the Quantum Confinement Effect in Single Isolated Ge Nanocrystals

Oded Millo, Isacc Balberg, Doron Azulay, Tapas K. Purkait, Anindya K. Swarnakar, Eric Rivard, Jonathan G.C. Veinot

Racah Institute of Physics

The Hebrew University of Jerusalem

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

Abstract

To address the yet open question regarding the nature of quantum confinement in Ge nanocrystals (Ge NCs) we employed scanning tunneling spectroscopy to monitor the electronic structure of individual isolated Ge NCs as a function of their size. The (single-particle) band gaps extracted from the tunneling spectra increase monotonically with decreasing nanocrystal size, irrespective of the capping ligands, manifesting the effect of quantum confinement. Band-gap widening of ∼1 eV with respect to the bulk value was observed for Ge-NCs 3 nm in diameter. The picture emerging from comparison with theoretical calculations and other experimental results is discussed.

Original language	English
Pages (from-to)	3396-3402
Number of pages	7
Journal	Journal of Physical Chemistry Letters
Volume	6
Issue number	17
DOIs	https://doi.org/10.1021/acs.jpclett.5b01541
State	Published - 14 Aug 2015

Keywords

band gap
germanium nanocrystals
quantum confinement
scanning tunneling spectroscopy

All Science Journal Classification (ASJC) codes

General Materials Science
Physical and Theoretical Chemistry

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10.1021/acs.jpclett.5b01541

Cite this

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title = "Direct Evaluation of the Quantum Confinement Effect in Single Isolated Ge Nanocrystals",

abstract = "To address the yet open question regarding the nature of quantum confinement in Ge nanocrystals (Ge NCs) we employed scanning tunneling spectroscopy to monitor the electronic structure of individual isolated Ge NCs as a function of their size. The (single-particle) band gaps extracted from the tunneling spectra increase monotonically with decreasing nanocrystal size, irrespective of the capping ligands, manifesting the effect of quantum confinement. Band-gap widening of ∼1 eV with respect to the bulk value was observed for Ge-NCs 3 nm in diameter. The picture emerging from comparison with theoretical calculations and other experimental results is discussed.",

keywords = "band gap, germanium nanocrystals, quantum confinement, scanning tunneling spectroscopy",

author = "Oded Millo and Isacc Balberg and Doron Azulay and Purkait, {Tapas K.} and Swarnakar, {Anindya K.} and Eric Rivard and Veinot, {Jonathan G.C.}",

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doi = "10.1021/acs.jpclett.5b01541",

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AU - Millo, Oded

AU - Balberg, Isacc

AU - Azulay, Doron

AU - Purkait, Tapas K.

AU - Swarnakar, Anindya K.

AU - Rivard, Eric

AU - Veinot, Jonathan G.C.

PY - 2015/8/14

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N2 - To address the yet open question regarding the nature of quantum confinement in Ge nanocrystals (Ge NCs) we employed scanning tunneling spectroscopy to monitor the electronic structure of individual isolated Ge NCs as a function of their size. The (single-particle) band gaps extracted from the tunneling spectra increase monotonically with decreasing nanocrystal size, irrespective of the capping ligands, manifesting the effect of quantum confinement. Band-gap widening of ∼1 eV with respect to the bulk value was observed for Ge-NCs 3 nm in diameter. The picture emerging from comparison with theoretical calculations and other experimental results is discussed.

AB - To address the yet open question regarding the nature of quantum confinement in Ge nanocrystals (Ge NCs) we employed scanning tunneling spectroscopy to monitor the electronic structure of individual isolated Ge NCs as a function of their size. The (single-particle) band gaps extracted from the tunneling spectra increase monotonically with decreasing nanocrystal size, irrespective of the capping ligands, manifesting the effect of quantum confinement. Band-gap widening of ∼1 eV with respect to the bulk value was observed for Ge-NCs 3 nm in diameter. The picture emerging from comparison with theoretical calculations and other experimental results is discussed.

KW - band gap

KW - germanium nanocrystals

KW - quantum confinement

KW - scanning tunneling spectroscopy

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DO - 10.1021/acs.jpclett.5b01541

M3 - مقالة

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JO - Journal of Physical Chemistry Letters

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ER -

Direct Evaluation of the Quantum Confinement Effect in Single Isolated Ge Nanocrystals

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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