16.67% 的刚性和 14.06% 的柔性有机太阳能电池通过三元杂化策略实现。

16.67% Rigid and 14.06% Flexible Organic Solar Cells Enabled by Ternary Heterojunction Strategy.

机构信息

Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, Ningbo, 315201, P. R. China.

Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing, 100049, P. R. China.

出版信息

Adv Mater. 2019 Sep;31(39):e1902210. doi: 10.1002/adma.201902210. Epub 2019 Aug 14.

DOI:10.1002/adma.201902210

PMID:31411359

Abstract

Ternary heterojunction strategies appear to be an efficient approach to improve the efficiency of organic solar cells (OSCs) through harvesting more sunlight. Ternary OSCs are fabricated by employing wide bandgap polymer donor (PM6), narrow bandgap nonfullerene acceptor (Y6), and PC BM as the third component to tune the light absorption and morphologies of the blend films. A record power conversion efficiency (PCE) of 16.67% (certified as 16.0%) on rigid substrate is achieved in an optimized PM6:Y6:PC BM blend ratio of 1:1:0.2. The introduction of PC BM endows the blend with enhanced absorption in the range of 300-500 nm and optimises interpenetrating morphologies to promote photogenerated charge dissociation and extraction. More importantly, a PCE of 14.06% for flexible ITO-free ternary OSCs is obtained based on this ternary heterojunction system, which is the highest PCE reported for flexible state-of-the-art OSCs. A very promising ternary heterojunction strategy to develop highly efficient rigid and flexible OSCs is presented.

摘要

三元杂化策略似乎是一种通过更多地利用太阳光来提高有机太阳能电池（OSC）效率的有效方法。三元 OSC 通过采用宽带隙聚合物给体（PM6）、窄带隙非富勒烯受体（Y6）和 PC71BM 作为第三组分来调节共混膜的光吸收和形态。在优化的 PM6:Y6:PC71BM 共混比为 1:1:0.2 时，在刚性衬底上实现了创纪录的功率转换效率（PCE）为 16.67%（认证为 16.0%）。PC71BM 的引入赋予了共混物在 300-500nm 范围内的增强吸收，并优化了互穿形态，以促进光生电荷的解离和提取。更重要的是，基于该三元杂化体系，获得了柔性无 ITO 的三元 OSC 的 PCE 为 14.06%，这是柔性先进 OSC 报告的最高 PCE。提出了一种很有前途的三元杂化策略，用于开发高效的刚性和柔性 OSC。

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16.67% 的刚性和 14.06% 的柔性有机太阳能电池通过三元杂化策略实现。

16.67% Rigid and 14.06% Flexible Organic Solar Cells Enabled by Ternary Heterojunction Strategy.

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