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Distance dependence of excitation energy transfer between spacer-separated conjugated polymer films

机译：间隔物分离的共轭聚合物薄膜之间激发能转移的距离依赖性

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We report a systematic study of the scaling with distance of electronic energy transfer between thin films of conjugated polymers separated by a silica spacer. The energy-transfer kinetics were obtained directly from time-resolved photoluminescence measurements and show a 1/ z3 distance dependence of the transfer rate between the excited donor and the acceptor film for z≥8 nm. This is consistent with Förster theory; but at shorter separations the energy transfer is slower than predicted and can be explained by the breakdown of the point-dipole approximation at z∼5 nm. The results are relevant for organic photovoltaics and light-emitting devices, where energy transfer can provide a means of increasing performance.

机译：我们报告了系统的研究与电子能量转移的距离由二氧化硅间隔物分隔的共轭聚合物薄膜之间的缩放比例。能量转移动力学直接从时间分辨的光致发光测量中获得，对于z≥8 nm，激发的供体与受体薄膜之间的转移速率显示出1 / z3距离依赖性。这与弗斯特理论是一致的。但是在更短的间隔内，能量转移的速度比预期的要慢，这可以通过点偶极子近似在z〜5 nm处的分解来解释。该结果与有机光伏和发光器件有关，在这些器件中，能量转移可以提供提高性能的手段。

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Shaw Paul E.; Ruseckas Arvydas; Samuel Ifor D. W.;
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年度 2008
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1. Distance Dependence Of Excitation Energy Transfer Between Spacer-separated Conjugated Polymer Films [J] . Paul E. Shaw, Arvydas Ruseckas, D. W. Samuel Physical review . 2008,第24期

机译：间隔分隔的共轭聚合物薄膜之间的激发能传递的距离依赖性
2. Enhanced photoluminescence by excitation energy transfer in thin films consisting of fluorescent conjugated polymer and porphyrin [J] . Mizuno Hitoshi, Nasu Shunsuke, Kitamura Koichiro, Thin Solid Films . 2018,第MAYa1期

机译：通过激发能量转移在荧光共轭聚合物和卟啉组成的薄膜中增强光致发光
3. Distance and Orientation Dependence of Excitation Transfer Rates in Conjugated Systems:Beyond the Fbrster Theory [J] . Kim F.Wong, Biman Bagchi, Peter J.Rossky The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2004,第27期

机译：共轭系统中激发传递速率的距离和方向依赖性：超越Fbrster理论
4. Distance and molecular weight dependence of surface enhanced fluorescence in conjugated polymer thin films [C] . Michael S. Griffo, Sue A. Carter Plasmonics: Metallic nanostructures and their optical properties VI . 2008

机译：共轭聚合物薄膜中表面增强荧光的距离和分子量依赖性
5. Excitation energy transfer (EET) in conjugated polymers. [D] . Singh, Jaykrishna V. 2010

机译：共轭聚合物中的激发能转移（EET）。
6. Measuring distances within unfolded biopolymers using fluorescence resonance energy transfer: The effect of polymer chain dynamics on the observed fluorescence resonance energy transfer efficiency [O] . Dmitrii E. Makarov, Kevin W. Plaxco -1

机译：使用荧光共振能量转移测量未折叠生物聚合物中的距离：聚合物链动力学对观察到的荧光共振能量转移效率的影响
7. Distance dependence of excitation energy transfer between spacer-separated conjugated polymer films [O] . Shaw, Paul E., Ruseckas, Arvydas, Samuel, Ifor D. W. 2008

机译：间隔物分离的共轭聚合物薄膜之间激发能转移的距离依赖性
8. Enhanced Reciprocal Interactions between Molecular Stresses and Optoelectronic Energy Transfers for High Efficiency Long Life Devices Based on Conjugated Polymers. [R] . Yang, A. C. 2014

机译：基于共轭聚合物的高效长寿命器件的分子应力和光电子能量转移之间的相互作用增强。

Distance dependence of excitation energy transfer between spacer-separated conjugated polymer films

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