期刊论文

Cao, Z;Yu, DH;Du, ZK

英文

Molecules

1420-3049

2024

29

6

1332-

10.3390/molecules29061332

Conceptualization, Z.D., Z.C. and D.Y.; methodology, W.X., Z.D. and P.C.; software, H.L.; validation, G.L., L.D. and W.H.; formal analysis, W.X. and G.L.; investigation, W.X., W.H. and H.L.; resources, P.C. and C.Y.; data curation, W.X. and H.L.; writing—original draft preparation, W.X. and Z.C.; writing—review and editing, W.X., Z.C. and D.Y.; visualization, C.Y. and P.C.; supervision, P.C., Z.C. and D.Y.; project administration, P.C. and D.Y.; funding acquisition, D.Y. All authors have read and agreed to the published version of the manuscript. This research was funded by the China Scholarship Council (CSC No. 201908510136) and the Shandong Provincial Natural Science Foundation, China (ZR2023MB132). The authors also thank Beijing Synchrotron Radiation Facility (BSRF) 1W1A for the 2D GIWAXS measurements. Support from the Sino-Danish Center for Education and Research is fully acknowledged.

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Although much promising synthetic progress in conjugated polymer-based organic solar cells (OSCs) has resulted in significant improvement in power conversion efficiencies (PCEs) of from over 15 to >19.0% in the last five years, the sophisticated and complex reactions from at least two families' monomers with remarkably different electron push-pull effects could still pose an unavoidable material burden for the commercialization of OSCs in the coming future. Therefore, the method of preparing a homopolymer from a sole monomer would significantly...