@article{a58bddf628bb41daacd219e7b1efa02f,
title = "Unveiling the Morphological and Physical Mechanism of Burn-in Loss Alleviation by Ternary Matrix Toward Stable and Efficient All-Polymer Solar Cells",
abstract = "All-polymer solar cells (All-PSCs) are considered the most promising candidate in achieving both efficient and stable organic photovoltaic devices, yet the field has rarely presented an in-depth understanding of corresponding device stability while efficiency is continuously boosted via the innovation of polymer acceptors. Herein, a ternary matrix is built for all-PSCs with optimized morphology, improved film ductility and importantly, boosted efficiency and better operational stability than its parental binary counterparts, as a platform to study the underlying mechanism. The target system PQM-Cl:PTQ10:PY-IT (0.8:0.2:1.2) exhibits an alleviated burn-in loss of morphology and efficiency under light soaking, which supports its promoted device lifetime. The comprehensive characterizations of fresh and light-soaked active layers lead to a clear illustration of opposite morphological and physical degradation direction of PQM-Cl and PTQ10, thus resulting in a delicate balance at the optimal ternary system. Specifically, the enlarging tendency of PQM-Cl and shrinking preference of PTQ10 in terms of phase separation leads to a stable morphology in their mixing phase; the hole transfer kinetics of PQM-Cl:PY-IT host is stabilized by incorporating PTQ10. This work succeeds in reaching a deep insight into all-PSC's stability promotion by a rational ternary design, which booms the prospect of gaining high-performance all-PSCs.",
keywords = "all-polymer solar cells, burn-in loss reductions, stability, ternary matrix, understanding",
author = "Ruijie Ma and Qunping Fan and {Dela Pe{\~n}a}, {Top Archie} and Baohua Wu and Heng Liu and Qiang Wu and Qi Wei and Jiaying Wu and Xinhui Lu and Mingjie Li and Wei Ma and Gang Li",
note = "Funding Information: G. Li acknowledges the support from Research Grants Council of Hong Kong (Project Nos 15320216, 15221320, C5037‐18G), RGC Senior Research Fellowship Scheme (SRFS2223‐5S01), National Natural Science Foundation of China (51961165102), Shenzhen Science and Technology Innovation Commission (JCYJ20200109105003940), the Hong Kong Polytechnic University Internal Research Funds: Sir Sze‐yuen Chung Endowed Professorship Fund (8‐8480), RISE (Q‐CDA5), 1‐W15V, 1‐YW4C and Guangdong‐Hong Kong‐Macao Joint Laboratory for Photonic‐Thermal‐Electrical Energy Materials and Devices (GDSTC No. 2019B121205001). W. Ma and Q. Fan thank the support from National Natural Science Foundation of China (21704082, 21875182, 22209131), Key Scientific and Technological Innovation Team Project of Shaanxi Province (2020TD‐002), 111 project 2.0 (BP2018008). R. Ma thanks for the support of PolyU Distinguished Postdoc Fellowship (1‐YW4C). X‐ray data were acquired at beamlines 7.3.3 and 11.0.1.2 at the Advanced Light Source, which was supported by the Director, Office of Science, Office of Basic Energy Sciences, of the U.S. Department of Energy under Contract No. DE‐AC02‐05CH11231. The authors thank Dr. Eric Schaible and Dr. Chenhui Zhu at beamline 7.3.3, and Dr. Cheng Wang at beamline 11.0.1.2 for assistance with data acquisition. Prof. Jianhui Hou and his team were appreciated for PQM‐Cl. Funding Information: G. Li acknowledges the support from Research Grants Council of Hong Kong (Project Nos 15320216, 15221320, C5037-18G), RGC Senior Research Fellowship Scheme (SRFS2223-5S01), National Natural Science Foundation of China (51961165102), Shenzhen Science and Technology Innovation Commission (JCYJ20200109105003940), the Hong Kong Polytechnic University Internal Research Funds: Sir Sze-yuen Chung Endowed Professorship Fund (8-8480), RISE (Q-CDA5), 1-W15V, 1-YW4C and Guangdong-Hong Kong-Macao Joint Laboratory for Photonic-Thermal-Electrical Energy Materials and Devices (GDSTC No. 2019B121205001). W. Ma and Q. Fan thank the support from National Natural Science Foundation of China (21704082, 21875182, 22209131), Key Scientific and Technological Innovation Team Project of Shaanxi Province (2020TD-002), 111 project 2.0 (BP2018008). R. Ma thanks for the support of PolyU Distinguished Postdoc Fellowship (1-YW4C). X-ray data were acquired at beamlines 7.3.3 and 11.0.1.2 at the Advanced Light Source, which was supported by the Director, Office of Science, Office of Basic Energy Sciences, of the U.S. Department of Energy under Contract No. DE-AC02-05CH11231. The authors thank Dr. Eric Schaible and Dr. Chenhui Zhu at beamline 7.3.3, and Dr. Cheng Wang at beamline 11.0.1.2 for assistance with data acquisition. Prof. Jianhui Hou and his team were appreciated for PQM-Cl. Publisher Copyright: {\textcopyright} 2023 Wiley-VCH GmbH.",
year = "2023",
month = may,
day = "4",
doi = "10.1002/adma.202212275",
language = "English",
volume = "35",
pages = "1--10",
journal = "Advanced Materials",
issn = "0935-9648",
publisher = "Wiley-Blackwell",
number = "18",
}