The role of quantum confinement and surface chemistry in silicon nanocrystals at the strong confinement regime

A. Saar; M. Dovrat; J. Jedrzejewsky; I. Popov; I. Balberg

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The role of quantum confinement and surface chemistry in silicon nanocrystals at the strong confinement regime

机译：在强约束机制下，量子约束和表面化学在硅纳米晶体中的作用

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Using infrared photo-induced absorption (PIA) spectroscopy, we have found a remarkable correlation between inter-sub-level (ISL) optical transitions and the photoluminescence (PL) from silicon nanocrystals. Our results indicate that the quantized electronic sublevels of the nanocrystals are resonantly coupled to surface vibrational modes via a polarization field produced by coherent longitudinal polar vibrations. The model and the experimental results support our findings that the mechanism responsible for the efficient PL from silicon nanocrystals should be assigned to inhibition of nonradiative channels rather than enhancement of radiative transitions.

机译：使用红外光致吸收（PIA）光谱，我们已经发现亚级间（ISL）光学跃迁与硅纳米晶体的光致发光（PL）之间存在显着的相关性。我们的结果表明，纳米晶体的量化电子子能级通过相干纵向极化振动产生的极化场共振耦合到表面振动模式。该模型和实验结果支持了我们的发现，即负责硅纳米晶体有效PL的机理应该归因于抑制非辐射通道，而不是增强辐射跃迁。

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《Physica Status Solidi. A, Applications and Materials Science》 |2007年第5期|p.1491-1496|共6页
作者
A. Saar; M. Dovrat; J. Jedrzejewsky; I. Popov; I. Balberg;
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作者单位

Racah Institute of Physics and the Center for Nanoscience and Nanotechnology, the Hebrew University of Jerusalem, Jerusalem 91904, Israel;

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原文格式 PDF
正文语种 eng
中图分类固体物理学;
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electron states at surfaces and interfaces; electronic structure of nanoscale materials: clusters; nanoparticles; nanotubes; and nanocrystals;

机译：表面和界面的电子态;纳米级材料的电子结构：团簇纳米粒子纳米管和纳米晶体;

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2. Resonant coupling between surface vibrations and electronic states in silicon nanocrystals at the strong confinement regime [J] . Saar A, Reichman Y, Dovrat M, Nano letters . 2005,第12期

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The role of quantum confinement and surface chemistry in silicon nanocrystals at the strong confinement regime

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