Ultrafast and Sensitive Self‐Powered Photodetector Based on Graphene/Pentacene Single Crystal Heterostructure with Weak Light Detection Capacity

Yuquan Gan; Shuchao Qin; Qianqian Du; Yuting Zhang; Jing Zhao; Mengru Li; Anran Wang; Yunlong Liu; Shuhong Li; Ruixin Dong; Linglong Zhang; Xiaoqing Chen; Cailong Liu; Wenjun Wang; Fengqiu Wang

doi:10.1002/advs.202204332

Advanced Science (Dec 2022)

Ultrafast and Sensitive Self‐Powered Photodetector Based on Graphene/Pentacene Single Crystal Heterostructure with Weak Light Detection Capacity

Yuquan Gan,
Shuchao Qin,
Qianqian Du,
Yuting Zhang,
Jing Zhao,
Mengru Li,
Anran Wang,
Yunlong Liu,
Shuhong Li,
Ruixin Dong,
Linglong Zhang,
Xiaoqing Chen,
Cailong Liu,
Wenjun Wang,
Fengqiu Wang

Affiliations

Yuquan Gan: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Shuchao Qin: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Qianqian Du: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Yuting Zhang: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Jing Zhao: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Mengru Li: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Anran Wang: National Laboratory of Solid State Microstructures and Jiangsu Provincial Key Laboratory of Advanced Photonic and Electronic Materials School of Electronic Science and Engineering Nanjing University Nanjing 210093 China
Yunlong Liu: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Shuhong Li: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Ruixin Dong: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Linglong Zhang: College of Physics Nanjing University of Aeronautics and Astronautics Key Laboratory of Aerospace Information Materials and Physics (NUAA) MIIT Nanjing 211106 China
Xiaoqing Chen: Key Laboratory of Light Field Manipulation and Information Acquisition Ministry of Industry and Information Technology and Shaanxi Key Laboratory of Optical Information Technology School of Physical Science and Technology Northwestern Polytechnical University Xi'an 710129 China
Cailong Liu: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Wenjun Wang: Key Laboratory of Optical Communication Science and Technology of Shandong Province School of Physical Science and Information Engineering Liaocheng University Liaocheng 252059 China
Fengqiu Wang: National Laboratory of Solid State Microstructures and Jiangsu Provincial Key Laboratory of Advanced Photonic and Electronic Materials School of Electronic Science and Engineering Nanjing University Nanjing 210093 China

DOI: https://doi.org/10.1002/advs.202204332
Journal volume & issue: Vol. 9, no. 35
pp. n/a – n/a

Abstract

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Abstract Organic materials exhibit efficient light absorption and low‐temperature, large‐scale processability, and have stimulated enormous research efforts for next‐generation optoelectronics. While, high‐performance organic devices with fast speed and high responsivity still face intractable challenges, due to their intrinsic limitations including finite carrier mobility and high exciton binding energy. Here an ultrafast and highly sensitive broadband phototransistor is demonstrated by integrating high‐quality pentacene single crystal with monolayer graphene. Encouragingly, the −3 dB bandwidth can reach up to 26 kHz, which is a record‐speed for such sensitized organic phototransistors. Enormous absorption, long exciton diffusion length of pentacene crystal, and efficient interfacial charge transfer enable a high responsivity of >105 A W−1 and specific detectivity of >1011 Jones. Moreover, self‐powered weak‐light detection is realized using a simple asymmetric configuration, and the obvious zero‐bias photoresponses can be displayed even under 750 nW cm−2 light intensity. Excellent response speed and photoresponsivity enable high‐speed image sensor capability in UV‐Vis ranges. The results offer a practical strategy for constructing high‐performance self‐powered organic hybrid photodetectors, with strong applicability in wireless, weak‐light detection, and video‐frame‐rate imaging applications.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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