通过体异质结通道实现的近红外光电晶体管中电学理想性和光响应的改善。

Improved electrical ideality and photoresponse in near-infrared phototransistors realized by bulk heterojunction channels.

作者信息

Li Ning, Lei Yanlian, Miao Yanqin, Zhu Furong

机构信息

Department of Physics, Research Centre of Excellence for Organic Electronics, and Institute of Advanced Materials, Hong Kong Baptist University, Hong Kong, China.

School of Physical Science and Technology, Southwest University, Chongqing 400715, China.

出版信息

iScience. 2021 Dec 30;25(1):103711. doi: 10.1016/j.isci.2021.103711. eCollection 2022 Jan 21.

DOI:10.1016/j.isci.2021.103711

PMID:35072005

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8761658/

Abstract

The factors that affect the electrical ideality and photoresponse in near-infrared (NIR) organic phototransistors (OPTs) are still nebulous. Here, simultaneous increase in electrical ideality and NIR response in the OPTs is realized by applying a bulk heterojunction (BHJ) channel. The acceptor in the channel helps to trap the undesirable injected electrons, avoiding the accumulation of the electrons at the active channel/dielectric interface, and thereby improving the hole transporting. Use of a BHJ channel also helps reducing the contact resistance in the OPTs. The electrical stability is then improved with mitigated dependence of charge mobility on gate voltage in the saturation region. The BHJ channel also offers an improved photoresponse through enhanced exciton dissociation, leading to more than one order of magnitude increase in responsivity than that in a control OPT. The results are encouraging, which pave the way for the development of high-performing NIR OPTs.

摘要

影响近红外（NIR）有机光电晶体管（OPT）电学理想性和光响应的因素仍不明确。在此，通过应用体异质结（BHJ）通道实现了OPT中电学理想性和近红外响应的同时提高。通道中的受体有助于捕获不需要的注入电子，避免电子在有源通道/电介质界面处积累，从而改善空穴传输。使用BHJ通道也有助于降低OPT中的接触电阻。然后，随着饱和区域中电荷迁移率对栅极电压的依赖性减轻，电学稳定性得到提高。BHJ通道还通过增强激子解离提供了改善的光响应，导致响应度比对照OPT提高了一个多数量级。这些结果令人鼓舞，为高性能近红外OPT的发展铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d701/8761658/73c32f1f0726/gr2.jpg

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通过体异质结通道实现的近红外光电晶体管中电学理想性和光响应的改善。

Improved electrical ideality and photoresponse in near-infrared phototransistors realized by bulk heterojunction channels.

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