Additive-assisted supramolecular manipulation of polymer:fullerene blend phase morphologies and its influence on photophysical processes

E. Buchaca-Domingo; A. J. Ferguson; F. C. Jamieson; T. McCarthy-Ward; S. Shoaee; J. R. Tumbleston; O. G. Reid; L. Yu; M.-B. Madec; M. Pfannm?ller; F. Hermerschmidt; R. R. Schr?derh; S. E. Watkins; N. Kopidakis; G. Portal; A. Amassian; M. Heeney; H. Ade; G. Rumblesk; J. R. Durrant; N. Stingelin

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Additive-assisted supramolecular manipulation of polymer:fullerene blend phase morphologies and its influence on photophysical processes

机译：聚合物：富勒烯共混物相形态的添加剂辅助超分子操作及其对光物理过程的影响

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It is well known that even small variations in the solid-state microstructure of polymer:fullerene bulk heterojunctions can drastically change their organic solar cell device performance. We employ pBTTT:PC_(61)BM as a model system and manipulate co-crystal formation of 1: 1 (by weight) blends with the assistance of fatty acid methyl esters as additives. This allows us to evaluate the role of the intermixed phase in such binary blends through manipulation of their phase morphology—from fully intercalated to partially and predominantly non-intercalated systems—and its effect on the exciton- and carrierdynamics and the efficiency of charge collection, with relevance for future device design and manufacturing.

机译：众所周知，即使聚合物：富勒烯本体异质结的固态微观结构即使发生很小的变化，也可以极大地改变其有机太阳能电池器件的性能。我们采用pBTTT：PC_（61）BM作为模型系统，并在脂肪酸甲酯作为添加剂的辅助下，以1：1（按重量计）共混物的共晶形成。这样一来，我们就可以通过操纵相的形态（从完全插层到部分非主要是非插层的系统）来评估混合相在此类二元共混物中的作用，以及它对激子和载流子动力学以及电荷收集效率的影响，与将来的设备设计和制造有关。

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《Materials Horizons》 |2014年第2期|共10页
作者
E. Buchaca-Domingo; A. J. Ferguson; F. C. Jamieson; T. McCarthy-Ward; S. Shoaee; J. R. Tumbleston; O. G. Reid; L. Yu; M.-B. Madec; M. Pfannm?ller; F. Hermerschmidt; R. R. Schr?derh; S. E. Watkins; N. Kopidakis; G. Portal; A. Amassian; M. Heeney; H. Ade; G. Rumblesk; J. R. Durrant; N. Stingelin;
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正文语种 eng
中图分类工程材料学;
关键词
change; collection; evaluate;

机译：变更;收集;评估;

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1. Additive-assisted supramolecular manipulation of polymer:fullerene blend phase morphologies and its influence on photophysical processes [J] . E. Buchaca-Domingo, A. J. Ferguson, F. C. Jamieson, Materials Horizons . 2014,第2期

机译：聚合物：富勒烯共混物相形态的添加剂辅助超分子操作及其对光物理过程的影响
2. Probing the nanoscale phase separation and photophysics properties of low-bandgap polymer:fullerene blend film by near-field spectroscopic mapping [J] . Wang X., Azimi H., MacK H.-G., Small . 2011,第19期

机译：通过近场光谱映射研究低带隙聚合物：富勒烯共混薄膜的纳米级相分离和光物理性质
3. Manipulation of discrete porphyrin-fullerene nanopillar arrays regulated by the phase separated infiltration of polymer in ternary blended organic thin-films [J] . Lee Jae-hyeong, Jintoku Hirokuni, Okazaki Yutaka, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2015,第Null期

机译：三元共混有机薄膜中聚合物的相分离渗透调控的卟啉-富勒烯纳米柱离散阵列的操纵
4. Influence of Morphology and Polymer Chain Conformation on the Dynamics of Carrier Generation in Polythiophene- Fullerene Blends [C] . Hiroaki Benten, Jiamo Guo, Hideo Ohkita PMSE Symposia . 2010

机译：形态学和聚合物链构象对多分子 - 富勒烯共混物载流子产生动态的影响
5. Ultrafast photophysics of pi-conjugated polymers and polythiophene/fullerene blends for organic photovoltaic applications. [D] . Singh, Sanjeev. 2010

机译：π共轭聚合物和聚噻吩/富勒烯混合物的超快光物理性能，用于有机光伏应用。
6. Selective Wet-Etching of Polymer/Fullerene Blend Films for Surface- and Nanoscale Morphology-Controlled Organic Transistors and Sensitivity-Enhanced Gas Sensors [O] . Min Soo Park, Alem Araya Meresa, Chan-Min Kwon, 2019

机译：聚合物/富勒烯共混膜的选择性湿蚀刻用于表面和纳米形态控制的有机晶体管和灵敏度增强的气体传感器
7. Photophysical Study of DPPTT-T/PC70BM Blends and Solar Devices as a Function of Fullerene Loading: An Insight into EQE Limitations of DPP-Based Polymers [O] . Dimitrov, Stoichko 2017

机译：DppTT-T / pC70Bm共混物和太阳能装置作为富勒烯负载的光物理研究：透视Dpp基聚合物的EQE限制

Additive-assisted supramolecular manipulation of polymer:fullerene blend phase morphologies and its influence on photophysical processes

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