Photoluminescence of Si nanosolids near the lower end of the size limit

L. K. Pan; C. Q. Sun; B. K. Tay; T. P. Chen; S. Li

doi:10.1021/jp0266805

Photoluminescence of Si nanosolids near the lower end of the size limit

L. K. Pan, C. Q. Sun^*, B. K. Tay, T. P. Chen, S. Li

^*Corresponding author for this work

Nanyang Technological University

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

42 Citations (Scopus)

Abstract

Understanding the blue shift in the photoluminescence (PL) of the nanosolid near the lower end of the size limit (D < 5 nm) seems difficult with the currently available models. This challenges are not simply numerical convergency but importantly new physics hiding behind. We examined hereby the PL blue shift of Si nanosolids smaller than 3 nm both experimentally and theoretically, leading to a conclusion that a recent "bond order-length-strength" (bond-OLS) correlation mechanism is necessary. Agreement between predictions and observations reveals that the Si-Si surface bond contracts more significantly (by ∼20%) for the smallest Si nanosolid of which the PL blue shift corresponds directly to the rise of a single bond energy of the surface atom with much lowered coordination.

Original language	English
Pages (from-to)	11725-11727
Number of pages	3
Journal	Journal of Physical Chemistry B
Volume	106
Issue number	45
DOIs	https://doi.org/10.1021/jp0266805
Publication status	Published - Nov 14 2002
Externally published	Yes

ASJC Scopus Subject Areas

Physical and Theoretical Chemistry
Surfaces, Coatings and Films
Materials Chemistry

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title = "Photoluminescence of Si nanosolids near the lower end of the size limit",

abstract = "Understanding the blue shift in the photoluminescence (PL) of the nanosolid near the lower end of the size limit (D < 5 nm) seems difficult with the currently available models. This challenges are not simply numerical convergency but importantly new physics hiding behind. We examined hereby the PL blue shift of Si nanosolids smaller than 3 nm both experimentally and theoretically, leading to a conclusion that a recent {"}bond order-length-strength{"} (bond-OLS) correlation mechanism is necessary. Agreement between predictions and observations reveals that the Si-Si surface bond contracts more significantly (by ∼20\%) for the smallest Si nanosolid of which the PL blue shift corresponds directly to the rise of a single bond energy of the surface atom with much lowered coordination.",

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T1 - Photoluminescence of Si nanosolids near the lower end of the size limit

AU - Pan, L. K.

AU - Sun, C. Q.

AU - Tay, B. K.

AU - Chen, T. P.

AU - Li, S.

PY - 2002/11/14

Y1 - 2002/11/14

N2 - Understanding the blue shift in the photoluminescence (PL) of the nanosolid near the lower end of the size limit (D < 5 nm) seems difficult with the currently available models. This challenges are not simply numerical convergency but importantly new physics hiding behind. We examined hereby the PL blue shift of Si nanosolids smaller than 3 nm both experimentally and theoretically, leading to a conclusion that a recent "bond order-length-strength" (bond-OLS) correlation mechanism is necessary. Agreement between predictions and observations reveals that the Si-Si surface bond contracts more significantly (by ∼20%) for the smallest Si nanosolid of which the PL blue shift corresponds directly to the rise of a single bond energy of the surface atom with much lowered coordination.

AB - Understanding the blue shift in the photoluminescence (PL) of the nanosolid near the lower end of the size limit (D < 5 nm) seems difficult with the currently available models. This challenges are not simply numerical convergency but importantly new physics hiding behind. We examined hereby the PL blue shift of Si nanosolids smaller than 3 nm both experimentally and theoretically, leading to a conclusion that a recent "bond order-length-strength" (bond-OLS) correlation mechanism is necessary. Agreement between predictions and observations reveals that the Si-Si surface bond contracts more significantly (by ∼20%) for the smallest Si nanosolid of which the PL blue shift corresponds directly to the rise of a single bond energy of the surface atom with much lowered coordination.

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Photoluminescence of Si nanosolids near the lower end of the size limit

Abstract

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