Nano-engineered electron–hole exchange interaction controls exciton dynamics in core–shell semiconductor nanocrystals

S. Brovelli; R.D. Schaller; S.A. Crooker; F. García-Santamaría; Y. Chen; R. Viswanatha; J.A. Hollingsworth; H. Htoon; V.I. Klimov

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Nano-engineered electron–hole exchange interaction controls exciton dynamics in core–shell semiconductor nanocrystals

机译：纳米工程电子-空穴交换相互作用控制核-壳半导体纳米晶体中的激子动力学

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A strong electron–hole exchange interaction (EI) in semiconductor nanocrystals (NCs) gives rise to a large (up to tens of meV) splitting between optically active ('bright') and optically passive ('dark') excitons. This dark–bright splitting has a significant effect on the optical properties of band-edge excitons and leads to a pronounced temperature and magnetic field dependence of radiative decay. Here we demonstrate a nanoengineering-based approach that provides control over EI while maintaining nearly constant emission energy. We show that the dark–bright splitting can be widely tuned by controlling the electron–hole spatial overlap in core–shell CdSe/CdS NCs with a variable shell width. In thick-shell samples, the EI energy reduces to . ? 2011 Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.

机译：半导体纳米晶体（NCs）中强大的电子-空穴交换相互作用（EI）引起了在光学有源（“亮”）激子和光学无源（“暗”）激子之间的大分裂（高达数十meV）。这种明暗分离对带边缘激子的光学性质有重大影响，并导致辐射衰减对温度和磁场的依赖性很大。在这里，我们演示了一种基于纳米工程的方法，该方法可以控制EI，同时保持几乎恒定的发射能量。我们表明，通过控制具有可变壳宽的核-壳CdSe / CdS NC中的电子-空穴空间重叠，可以广泛地调节暗-亮分裂。在厚壳样品中，EI能量降低至。？ 2011年自然出版集团（Macmillan Publishers Limited的子公司）。版权所有。

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《Nature Communications》 |2012年第2015期|共1页
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S. Brovelli; R.D. Schaller; S.A. Crooker; F. García-Santamaría; Y. Chen; R. Viswanatha; J.A. Hollingsworth; H. Htoon; V.I. Klimov;
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1. Effect of quantum and dielectric confinement on the exciton-exciton interaction energy in type II core/shell semiconductor nanocrystals [J] . Piryatinski A, Ivanov SA, Tretiak S, Nano letters . 2007,第26期

机译：量子和介电限制对II型核/壳半导体纳米晶体中激子-激子相互作用能的影响
2. Electrodynamical Treatment of the Electron-Hole Long-Range Exchange Interaction in Semiconductor Nanocrystals [J] . S. V. Goupalov, P. Lavallard, G. Lamouche, Physics of the solid state . 2003,第4期

机译：半导体纳米晶体中电子-空穴远程交换相互作用的电动力学处理
3. Electrodynamical treatment of the electron-hole long-range exchange interaction in semiconductor nanocrystals [J] . S. V. Goupalov, P. Lavallard, G. Lamouche, Физика твердого тела: ФТТ . 2003,第4期

机译：半导体纳米晶体中电子-空穴长程交换相互作用的电动力学处理
4. Wavefunction engineering in core-shell semiconductor nanocrystals: from fine-tuned exciton dynamics and suppressed Auger recombination to dual color electroluminescence [C] . Sergio Brovelli, Florencio García-Santamaría, Ranjani Viswanatha, Physical chemistry of interfaces and nanomaterials XI. . 2012

机译：核-壳半导体纳米晶体中的波函数工程：从微调的激子动力学和抑制俄歇复合到双色电致发光
5. Exciton dynamics in cadmium selenide/zinc selenide core/core-shell nanocrystals as effected by surface ligand modification using femtosecond fluorescence upconversion. [D] . Kippeny, Tadd. 2005

机译：硒化镉/硒化锌核/核-壳纳米晶体中的激子动力学受到飞秒荧光上转换对表面配体的影响。
6. Nano-engineered electron–hole exchange interaction controls exciton dynamics in core–shell semiconductor nanocrystals [O] . S. Brovelli, R.D. Schaller, S.A. Crooker, -1

机译：纳米工程电子-空穴交换相互作用控制核-壳半导体纳米晶体中的激子动力学
7. Nano-engineered electron–hole exchange interaction controls exciton dynamics in core–shell semiconductor nanocrystals [O] . Brovelli, S., Schaller, R.D., Crooker, S.A., 2011

机译：纳米工程电子-空穴交换相互作用控制核-壳半导体纳米晶体中的激子动力学
8. Tunable Magnetic Exchange Interactions in Manganese-Doped Inverted Core- Shell ZnSe-CdSe Nanocrystals [R] . 2009

机译：锰掺杂的核壳Znse-Cdse纳米晶的可调谐磁交换相互作用

Nano-engineered electron–hole exchange interaction controls exciton dynamics in core–shell semiconductor nanocrystals

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