Issue 36, 2024

Highly efficient organic–graphene hybrid photodetectors via molecular peripheral editing

Abstract

Hybrid systems based on graphene and organic molecules are highly appealing for “correcting” the limited optoelectronic properties of 2D materials. However, an in-depth understanding of the correlation between the structure of the molecular sensitizer and the physical properties of the hybrid toward high-performance organic–graphene hybrid photodetectors remains elusive. Herein, an ad hoc molecular design via a peripheral editing approach on the organic molecules is employed to elucidate the structure–property relationship when interfaced with graphene forming hybrid systems. Efficient doping of graphene can be attained by physisorption of tetrathiafulvalene molecules exposing electron-donating peripheral groups, benefiting from a strong coupling yielding efficient charge transfer, ultimately leading to photodetectors with an ultra-high responsivity of 1.1 × 107 A W−1 and a specific detectivity of 6.5 × 1014 Jones, thereby outperforming state-of-the-art graphene-based photodetectors. These results offer valuable insights for future optimization of graphene-based photodetectors through molecular functionalization.

Graphical abstract: Highly efficient organic–graphene hybrid photodetectors via molecular peripheral editing

Supplementary files

Article information

Article type
Paper
Submitted
15 Mot 2024
Accepted
09 Pha 2024
First published
12 Pha 2024
This article is Open Access
Creative Commons BY license

J. Mater. Chem. C, 2024,12, 14667-14674

Highly efficient organic–graphene hybrid photodetectors via molecular peripheral editing

S. Dai, M. Xie, C. Wang, Y. Wang, B. Han, S. Xu, K. Wang, A. Zhuravlova, B. Xu, L. Chi, W. Tian, P. Samorì and Z. Liu, J. Mater. Chem. C, 2024, 12, 14667 DOI: 10.1039/D4TC02010C

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