Simultaneous Enhanced Device Efficiency and Color Neutrality in Semitransparent Organic Photovoltaics Employing a Synergy of Ternary Strategy and Optical Engineering
Xinxin Yuan, Rui Sun, Yao Wu, Tao Wang, Yuheng Wang, Wei Wang, Yue Yu, Jing Guo, Qiang Wu, Jie Min
Abstract
Abstract Power conversion efficiency (PCE) and color rendering index (CRI) are two important parameters for realizing the potential application of semitransparent organic photovoltaics (ST‐OPVs) into the field of building‐integrated photovoltaics (BIPVs). Herein, to extend the PCE limit while showing desirable neutral‐colored perception, formally in a trade‐off relationship, of ST‐OPVs, new ternary photoactive layers composed of polymer donor PM6‐Ir1, non‐fullerene acceptor BTP‐eC9, and fullerene acceptor PC 71 BM as the third component are employed, which are effective to improve opaque device efficiency while modulating CRI in relevant ternary blends. Furthermore, multifunctional ST‐OPVs are realized via simultaneously optimizing the content of PC 71 BM in acceptors and employing a simple photonic reflector, leading to not only excellent neutral color perception with a CRI of 96.5 but also a PCE of 14.09% with an average visible transmittance higher than 20%. Vivid backgrounds can be clearly seen through the 1‐DBR‐based ternary ST‐OPVs. Overall, these results represent the best‐performing multifunctional ST‐OPVs, and this synergistic effect can pave the road for ST‐OPVs as promising BIPVs of high device performance and good color neutrality.