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Nonradiative resonance energy transfer directed from colloidal CdSe/ZnS quantum dots to epitaxial ingan/gan quantum wells for solar cells

机译：从胶体CdSe / ZnS量子点到太阳能电池外延Ingan / gan量子阱的非辐射共振能量转移

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We report on Förster-type nonradiative resonance energy transfer (NRET) directed from colloidal quantum dots (QDs) to epitaxial quantum wells (QWs) with an efficiency of 69.6% at a rate of 1.527 ns-1 for potential application in III-nitride based photovoltaics. This hybrid exciton generation-collection system consists of chemically-synthesized cyan CdSe/ZnS core/shell QDs (λPL = 490 nm) intimately integrated on epitaxially-grown green InGaN/GaN QWs (λPL = 512 nm). To demonstrate directional NRET from donor QDs to acceptor QWs, we simultaneously show the decreased photoluminescence decay lifetime of dots and increased lifetime of wells in the hybrid dipole-dipole coupled system. © 2010 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

机译：我们报道了从胶体量子点（QDs）定向到外延量子阱（QWs）的Förster型非辐射共振能量转移（NRET），效率为69.6％，速率为1.527 ns-1，可用于基于III氮化物的潜在应用光伏。该混合激子产生-收集系统由紧密集成在外延生长的绿色InGaN / GaN QW（λPL= 512 nm）上的化学合成青色CdSe / ZnS核/壳QD（λPL= 490 nm）组成。为了演示从供体QD到受体QW的定向NRET，我们同时显示了在混合偶极-偶极耦合系统中点的光致发光衰减寿命降低和孔的寿命增加。 ©2010 WILEY-VCH Verlag GmbH＆Co. KGaA，Weinheim。

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Nizamoglu, S.; Sari, E.; Baek J.-H.; Lee I.-H.; Demir, H. V.;
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年度 2010
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1. Quantum-dot-sensitized solar cells fabricated by the combined process of the direct attachment of colloidal CdSe quantum dots having a ZnS glue layer and spray pyrolysis deposition [J] . Im S.H., Lee Y.H., Seok S.I., Langmuir: The ACS Journal of Surfaces and Colloids . 2010,第23期

机译：通过直接附着具有ZnS胶层的胶体CdSe量子点和喷雾热解沉积的组合工艺制造的量子点敏化太阳能电池
2. Design and simulation of perturbed onion-like quantum-dot-quantum-well (CdSe/ZnS/CdSe/ZnS) and its influence on fluorescence resonance energy transfer mechanism [J] . Salmanogli A., Rostami A. Nanobiotechnology, IET . 2013,第4期

机译：扰动洋葱状量子点量子阱（CdSe / ZnS / CdSe / ZnS）的设计与仿真及其对荧光共振能量转移机理的影响
3. Fluorescence resonance energy transfer measured by spatial photon migration in CdSe-ZnS quantum dots colloidal systems as a function of concentration [J] . G. Azevedo, A. F. G. Monte, A. F. Reis, Applied Physics Letters . 2014,第20期

机译：CdSe-ZnS量子点胶体系统中空间光子迁移所测量的荧光共振能量转移与浓度的关系
4. Förster-type nonradiative energy transfer directed from colloidal quantum dots to epitaxial quantum wells for light harvesting applications [C] . Nizamoglu Sedat, Sari Emre, Baek Jong-Hyeob, 2011 Conference on lasers and electro-optics . 2011

机译：从胶体量子点到外延量子阱的Förster型非辐射能量转移，用于光收集应用
5. Growth and Characterization of Type-II Submonolayer ZnCdTe/ZnCdSe Quantum Dot Superlattices for Efficient Intermediate Band Solar Cells. [D] . Dhomkar, Siddharth. 2015

机译：高效中带太阳能电池II型亚单层ZnCdTe / ZnCdSe量子点超晶格的生长和表征。
6. The Role of Intrinsic and Surface States on the Emission Properties of Colloidal CdSe and CdSe/ZnS Quantum Dots [O] . Giovanni Morello, Marco Anni, PantaleoDavide Cozzoli, 2007

机译：本征和表面态对胶态CdSe和CdSe / ZnS量子点发射特性的作用
7. Förster-type nonradiative energy transfer directed from colloidal quantum dots to epitaxial quantum wells for light harvesting applications [O] . Nizamoglu S., Sari E., Baek J.-H., 2011

机译：从胶体量子点到外延量子阱的Förster型非辐射能量转移，用于光收集应用

Nonradiative resonance energy transfer directed from colloidal CdSe/ZnS quantum dots to epitaxial ingan/gan quantum wells for solar cells

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