动力学调控助力通过卷对卷兼容狭缝模涂覆制备高性能厚三元有机太阳能电池。

Kinetics Manipulation Enables High-Performance Thick Ternary Organic Solar Cells via R2R-Compatible Slot-Die Coating.

作者信息

Zhao Heng, Lin Baojun, Xue Jingwei, Naveed Hafiz Bilal, Zhao Chao, Zhou Xiaobo, Zhou Ke, Wu Hongbo, Cai Yuhang, Yun Daqin, Tang Zheng, Ma Wei

机构信息

State Key Laboratory for Mechanical Behavior of Materials, Xi'an Jiaotong University, Xi'an, 710049, China.

Center for Advanced Low-Dimension Materials, State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University, Shanghai, 201620, China.

出版信息

Adv Mater. 2022 Feb;34(7):e2105114. doi: 10.1002/adma.202105114. Epub 2022 Jan 9.

DOI:10.1002/adma.202105114

PMID:34847252

Abstract

Power conversion efficiency (PCE) of organic solar cells (OSCs) has crossed the 18% mark for OSCs, which are largely fabricated by spin-coating, and the optimal photoactive thickness is limited to 100 nm. To increase reproducibility of results with industrial roll-to-roll (R2R) processing, slot-die coating coupled with a ternary strategy for optimal performance of large-area, thick OSCs is used. Based on miscibility differences, a highly crystalline molecule, BTR-Cl, is incorporated, and the phase-separation kinetics of the D18:Y6 film is regulated. BTR-Cl provides an early liquid-liquid phase separation and early aggregation of Y6, which slightly improves the molecular crystallinity and vertical phase separation of the ternary blends, resulting in high PCEs of 17.2% and 15.5% for photoactive films with thicknesses of 110 and 300 nm, respectively. The ternary design strategy for large-area and thick films is further used to fabricate high-efficiency flexible devices, which promises reproducibility of the lab results from slot-die coating to industrial R2R manufacturing.

摘要

有机太阳能电池（OSCs）的功率转换效率（PCE）已超过18%，这些电池大多通过旋涂法制造，且最佳光活性厚度限制在100纳米。为提高工业卷对卷（R2R）加工结果的可重复性，采用了狭缝模涂覆结合三元策略来实现大面积厚有机太阳能电池的最佳性能。基于混溶性差异，引入了一种高度结晶的分子BTR-Cl，并调节了D18:Y6薄膜的相分离动力学。BTR-Cl能实现早期液-液相分离和Y6的早期聚集，这略微改善了三元共混物的分子结晶度和垂直相分离，使得厚度为110纳米和300纳米的光活性薄膜的PCE分别高达17.2%和15.5%。大面积厚膜的三元设计策略进一步用于制造高效柔性器件，这有望使从狭缝模涂覆到工业R2R制造的实验室结果具有可重复性。

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动力学调控助力通过卷对卷兼容狭缝模涂覆制备高性能厚三元有机太阳能电池。

Kinetics Manipulation Enables High-Performance Thick Ternary Organic Solar Cells via R2R-Compatible Slot-Die Coating.

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