聚合物/富勒烯太阳能电池中溶剂添加剂调控的形貌与载流子非双分子复合动力学

Morphology and carrier non-geminate recombination dynamics regulated by solvent additive in polymer/fullerene solar cells.

作者信息

Huo Ming-Ming, Hu Rong, Zhang Qing-Shan, Chen Shaoting, Gao Xing, Zhang Yi, Yan Wei, Wang Yong

机构信息

Laser Institute, Qilu University of Technology (Shandong Academy of Sciences) Qingdao Shandong 266100 China

Research Institute for New Materials Technology, Chongqing University of Arts and Sciences Chongqing 402160 China

出版信息

RSC Adv. 2020 Jun 17;10(39):23128-23135. doi: 10.1039/d0ra03389h. eCollection 2020 Jun 16.

DOI:10.1039/d0ra03389h

PMID:35520309

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9054697/

Abstract

In this study, PBDTTT-E (based on benzo [1,2-b:4,5-b'] dithiophene (BDT) and thieno [3,4-b] thiophene (TT)) as a donor and fullerene derivative PCBM (phenyl-C-butyric acid methyl ester) as an acceptor with and without 1,8-diiodooctane (DIO)-treated copolymer solar cells were investigated. The device based on PBDTTT-E with treated DIO showed remarkably high current density ( ), fill factor (FF) and similar open-circuit voltage ( ). Charge carrier lifetime ( ), density () and non-geminate recombination rate ( ) in the photoactive layers were measured by employing transient photovoltage (TPV) and charge extraction (CE) techniques. Based on and , - curves were reconstructed. The DIO optimized the morphology of the active layer and its PBDTTT-E:PCBM interfaces were increased. Therefore, compared to the device without the treated DIO, the device with the treated DIO showed larger electron mobility, longer carrier lifetime ( ) and lower non-geminate recombination rate ( ), which enhances the carrier transport and restrains the non-geminate recombination, realizing the higher and FF. In addition, that the DIO-treated devices can weaken the role of other factors (such as field dependent geminate recombination) in limiting device performance. The results provide some hints of improved device performance upon DIO as an additive in the D-A type polymer/fullerene solar cells.

摘要

在本研究中，对以苯并[1,2 - b:4,5 - b']二噻吩（BDT）和噻吩并[3,4 - b]噻吩（TT）为给体的PBDTTT - E以及以富勒烯衍生物苯基 - C - 丁酸甲酯（PCBM）为受体，添加和不添加1,8 - 二碘辛烷（DIO）处理的共聚物太阳能电池进行了研究。基于经DIO处理的PBDTTT - E的器件显示出显著高的电流密度（）、填充因子（FF）以及相似的开路电压（）。通过采用瞬态光电压（TPV）和电荷提取（CE）技术测量了光活性层中的电荷载流子寿命（）、密度（）和非成对复合率（）。基于和，重建了 - 曲线。DIO优化了活性层的形貌并且其PBDTTT - E:PCBM界面增加。因此，与未经DIO处理的器件相比，经DIO处理的器件显示出更大的电子迁移率、更长的载流子寿命（）和更低的非成对复合率（），这增强了载流子传输并抑制了非成对复合，实现了更高的和FF。此外，DIO处理的器件能够削弱其他因素（如场依赖成对复合）在限制器件性能方面的作用。这些结果为在D - A型聚合物/富勒烯太阳能电池中作为添加剂的DIO改善器件性能提供了一些线索。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2f7e/9054697/2f8df981e74a/d0ra03389h-f1.jpg

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聚合物/富勒烯太阳能电池中溶剂添加剂调控的形貌与载流子非双分子复合动力学

Morphology and carrier non-geminate recombination dynamics regulated by solvent additive in polymer/fullerene solar cells.

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