Donor-Interacting Arylated Carbazole Self-Assembled Monolayer Enables Highly Efficient and Stable Organic Photovoltaics

Yiwen Wang, Wenlin Jiang, Le Mei, Xiankai Chen, Min Sun, Chieh-Ting Lin, Rui Zhang, Gengxin Du, Weiming Qiu, Xi Yang, Qunping Fan, Hin-Lap Yip, Francis R. Lin*, Alex K.-Y. Jen*

*Corresponding author for this work

Research output: Journal Publications and ReviewsRGC 21 - Publication in refereed journalpeer-review

1 Citation (Scopus)

Abstract

Carbazole-derived self-assembled monolayers (SAMs) are promising materials for hole-extraction layer (HEL) in conventional organic photovoltaics (OPVs). Here, a SAM Cbz-2Ph derived from 3,6-diphenylcarbazole is demonstrated. The large molecular dipole moment of Cbz-2Ph allows the modulation of electrode work function to facilitate hole extraction and maximize photovoltage, thus improving the OPV performance. Additionally, the flanking aryls of Cbz-2Ph help establish CH-π interactions for forming a dense and well-organized SAM HEL and exhibit stronger van der Waals interactions with the donor PM6 than acceptor BTP-eC9. The stronger SAM-donor interactions modulate the PM6 distribution in PM6:BTP-eC9 bulk-heterojunction film, leading to PM6 enrichment near HEL to facilitate efficient hole extraction to the ITO anode in conventional p–i–n OPVs. Consequently, binary PM6:BTP-eC9-based devices incorporating the Cbz-2Ph HEL demonstrate an impressive efficiency of 19.18%. These cells also showcase excellent operational stability, with a T80 lifetime of ≈1260 h at the maximum power point, over 10 times longer than those using the traditional PEDOT:PSS HEL (T80 ≈96 h). Furthermore, the universal applicability of Cbz-2Ph as a HEL is evident through its successful implementation in PM6:BTP-eC9:L8-BO-F-based ternary devices and PM6:BTP-eC9-based printed OPV devices, achieving a PCE of 19.30% and 16.96%, respectively. © 2025 Wiley-VCH GmbH.
Original languageEnglish
Article number2403233
JournalSmall
Volume21
Issue number6
Online published15 Jan 2025
DOIs
Publication statusPublished - 12 Feb 2025

Funding

A.K.-Y.J. thanks the sponsorship of the Lee Shau-Kee Chair Professor (Materials Science) and the support from the APRC Grants (9380086, 9610419, 9610492, 9610508) of the City University of Hong Kong, the TCFS Grant (GHP/018/20SZ) and MRP Grant (MRP/040/21X) from the Innovation and Technology Commission of Hong Kong, the Green Tech Fund (202020164) from the Environment and Ecology Bureau of Hong Kong, the GRF grants (11307621, 11316422) from the Research Grants Council of Hong Kong, Shenzhen Science and Technology Program (SGDX20201103095412040), Guangdong Major Project of Basic and Applied Basic Research (2019B030302007), Guangzhou Huangpu Technology Bureau (2022GH02). Y.W. thanks the Young Scientists Fund of the National Natural Science Foundation of China (NSFC) (62405113) and funding from the Technology Commission of Guangzhou Municipality (SL2024A04J00418). C.-T.L. thanks the National Science and Technology Council for their support (110-2222-E-005 −005 -MY3, 112-2628-E-005 −002 -). F.R.L. acknowledges the support of the Postdoctoral Fellowship Scheme from the Research Grants Council of Hong Kong (CityU PDFS2122-1S06). R.Z. thanks the BL11 NCD-SWEET beamline staff at ALBA Synchrotron for their assistance in recording the GIWAXS data. Additionally, thanks are given for the SIMs measurement assistance from the Instrumentation Center at National Tsing Hua University.

Research Keywords

  • charge extraction layer
  • molecular interaction
  • organic photovoltaics
  • photostability
  • self-assembled monolayer

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This output contributes to the following UN Sustainable Development Goals (SDGs)

  • SDG 7 - Affordable and Clean Energy

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