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Boosting the Dipole Effect of Self-Assembled Monolayers via an Asymmetric Sulfur Functionalization Strategy

Yan Du, Qing Zhao, Qisheng Yuan, Zhihui Wang, Yonglian Xiong, Quanping Wu, Song Xue, Xueping Zong

2025ACS Applied Energy Materials6 citationsDOI

Abstract

Self-assembled monolayers (SAMs) have drawn great attention for their unique molecular properties. However, the symmetrical molecular configuration of the carbazole-based SAMs weakens their dipole effect on the substrate, which impedes further enhancement of the efficiency for inverted perovskite solar cells (PSCs). Thus, fine-tuning the dipole effect of SAM molecules on energy alignment is urgently needed for achieving high-performance molecules. Herein, we propose a molecular strategy of asymmetric sulfur functionalization. By incorporation of the carbazole and S-functionalized benzene groups, a type of asymmetric carbazole-based SAM was designed and synthesized, cited as SCz. The S atom acted as a soft base to form strong Pb–S bonds and optimize the energy level of SCz. The study also found that the cooperative effect of asymmetric structures and S atoms increased the molecular dipole up to 4.2 D, making more matched energy levels of SAM with the perovskite layer. Consequently, the PSCs endowed with SCz achieved a champion efficiency of 21.63%, accompanied by improved device stability. The results indicate that constructing an S-functionalized asymmetric SAM is an effective strategy for accurately regulating energy levels and the dipole effect of the SAM on the substrate.

Topics & Concepts

Surface modificationBoosting (machine learning)MonolayerSulfurSelf-assembled monolayerDipoleChemistryNanotechnologyMaterials scienceCombinatorial chemistryComputer scienceArtificial intelligenceOrganic chemistryPhysical chemistryMolecular Junctions and Nanostructures2D Materials and ApplicationsAdvanced Thermoelectric Materials and Devices
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