CHARGE-TRANSFER RANGE FOR PHOTOEXCITATIONS IN CONJUGATED POLYMER/FULLERENE BILAYERS AND BLENDS

Vacar D.; Mcbranch DW.; Heeger AJ.; Maniloff ES.

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CHARGE-TRANSFER RANGE FOR PHOTOEXCITATIONS IN CONJUGATED POLYMER/FULLERENE BILAYERS AND BLENDS

机译：共轭聚合物/富勒烯共混物和共混物中光激发的电荷转移范围

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Time-resolved photoinduced absorption was measured on bilayers of poly-[2-methoxy,5-(2'-ethylhexoxy)-1,4-phenylenevinylene] (MEH-PPV) and fullerene (C-60), and on MEH-PPV/C-60 composite films of various concentrations. We find that even in the picosecond regime, charge transfer from the conjugated polymer to C-60 slows down the decay dynamics relative to the decay in the pure samples. The fact that charge transfer occurs in the picosecond time scale in bilayer structure (thickness approximate to 200 Angstrom) implies that diffusion of localized excitations to the interface is not the dominant mechanism; the charge-transfer range is a significant fraction of the film thickness. From an analysis of the excited-stare decay curves, we estimate the charge-transfer range to be 80 Angstrom and interpret that range as resulting from quantum delocalization of the photoexcitations. [References: 25]

机译：在聚-[2-甲氧基，5-（2'-乙基己氧基）-1,4-亚苯基亚乙烯基]（MEH-PPV）和富勒烯（C-60）的双层以及MEH-PPV上测量时间分辨的光诱导吸收/ C-60复合膜的各种浓度。我们发现，即使在皮秒状态下，从共轭聚合物到C-60的电荷转移相对于纯样品中的衰变也会减慢衰变动力学。电荷转移发生在皮秒级的双层结构中（厚度约为200埃），这表明局部激发向界面的扩散不是主要的机制。电荷转移范围是薄膜厚度的很大一部分。通过对激发凝视衰变曲线的分析，我们估计电荷转移范围为80埃，并将该范围解释为是由光激发的量子离域产生的。 [参考：25]

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《Physical Review, B. Condensed Matter》 |1997年第8期|共5页
作者
Vacar D.; Mcbranch DW.; Heeger AJ.; Maniloff ES.;
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正文语种 eng
中图分类物理学;
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Photoinduced electron-transfer; Poly(p-phenylenevinylene); Polymers; Singlet; Films; Photoluminescence; Transport; States; C-60;

机译：光致电子转移聚对苯撑亚乙烯基聚合物单片薄膜光致发光态C-60;

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1. CHARGE-TRANSFER RANGE FOR PHOTOEXCITATIONS IN CONJUGATED POLYMER/FULLERENE BILAYERS AND BLENDS [J] . Vacar D., Mcbranch DW., Heeger AJ., Physical Review, B. Condensed Matter . 1997,第8期

机译：共轭聚合物/富勒烯共混物和共混物中光激发的电荷转移范围
2. Long lived photoexcitation dynamics in π-conjugated polymer and fullerene blended films [J] . X. Yang, R.Z. Wang, Y.C. Wang, Organic Electronics . 2013,第8期

机译：π共轭聚合物和富勒烯共混薄膜中的长寿命光激发动力学
3. Sub-picosecond charge-transfer at near-zero driving force in polymer:non-fullerene acceptor blends and bilayers [J] . Yufei Zhong, Martina Causa, Gareth John Moore, Nature Communications . 2020,第1期

机译：在聚合物的接近零驱动力下亚皮秒电荷转移：非富勒烯受体共混物和双层
4. Continuous-wave photoinduced absorption studies in long lived photoexcitation of π-conjugated polymer and fullerene blended films [C] . X. Yang, H. Li, Y.C. Wang, International symposium on advanced optical manufacturing and testing technologies . 2014

机译：π共轭聚合物与富勒烯共混膜的长寿命光激发中的连续波光诱导吸收研究
5. Charge-transfer and other excitonic states in conjugated polymer:fullerene blends - implication in photovoltaics [D] . Dhanashree Moghe. 2014

机译：共轭聚合物中的电荷转移和其他兴趣状态：富勒烯混合物 - 在光伏中的含义
6. Long Lived Photoexcitation Dynamics in π-Conjugated Polymer/PbS Quantum Dot Blended Films for Photovoltaic Application [O] . Ruizhi Wang, Xiaoliang Yan, Xiao Yang, 2017

机译：π共轭聚合物/ PbS量子点混合薄膜在光伏中的长寿命光激发动力学
7. Theory of interfacial charge-transfer complex photophysics in $\pi$-conjugated polymer-fullerene blends [O] . Aryanpour, K., Psiachos, D., Mazumdar, S. 2010

机译：中国界面电荷转移复合光物理理论 $ \ pi $ - 共轭聚合物 - 富勒烯混合物

CHARGE-TRANSFER RANGE FOR PHOTOEXCITATIONS IN CONJUGATED POLYMER/FULLERENE BILAYERS AND BLENDS

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