通过精确的势垒工程有效调节有机半导体中的热激活电荷传输。

Effectively modulating thermal activated charge transport in organic semiconductors by precise potential barrier engineering.

作者信息

Huang Yinan, Gong Xue, Meng Yancheng, Wang Zhongwu, Chen Xiaosong, Li Jie, Ji Deyang, Wei Zhongming, Li Liqiang, Hu Wenping

机构信息

Tianjin Key Laboratory of Molecular Optoelectronic Sciences, Department of Chemistry, Institute of Molecular Aggregation Science, Tianjin University, 300072, Tianjin, China.

School of Nano-Tech and Nano-Bionics, University of Science and Technology of China, Hefei, 230026, Anhui, China.

出版信息

Nat Commun. 2021 Jan 4;12(1):21. doi: 10.1038/s41467-020-20209-w.

DOI:10.1038/s41467-020-20209-w

PMID:33397923

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7782849/

Abstract

The temperature dependence of charge transport dramatically affects and even determines the properties and applications of organic semiconductors, but is challenging to effectively modulate. Here, we develop a strategy to circumvent this challenge through precisely tuning the effective height of the potential barrier of the grain boundary (i.e., potential barrier engineering). This strategy shows that the charge transport exhibits strong temperature dependence when effective potential barrier height reaches maximum at a grain size near to twice the Debye length, and that larger or smaller grain sizes both reduce effective potential barrier height, rendering devices relatively thermostable. Significantly, through this strategy a traditional thermo-stable organic semiconductor (dinaphtho[2,3-b:2',3'-f]thieno[3,2-b]thiophene, DNTT) achieves a high thermo-sensitivity (relative current change) of 155, which is far larger than what is expected from a standard thermally-activated carrier transport. As demonstrations, we show that thermo-sensitive OFETs perform as highly sensitive temperature sensors.

摘要

电荷传输的温度依赖性极大地影响甚至决定了有机半导体的性能和应用，但有效调控却具有挑战性。在此，我们通过精确调节晶界势垒的有效高度（即势垒工程），开发出一种策略来克服这一挑战。该策略表明，当有效势垒高度在接近德拜长度两倍的晶粒尺寸处达到最大值时，电荷传输表现出强烈的温度依赖性，而更大或更小的晶粒尺寸都会降低有效势垒高度，使器件相对热稳定。值得注意的是，通过这种策略，一种传统的热稳定有机半导体（二萘并[2,3 - b:2',3'- f]噻吩并[3,2 - b]噻吩，DNTT）实现了155的高热灵敏度（相对电流变化），这远远高于标准热激活载流子传输所预期的值。作为示例，我们展示了热敏有机场效应晶体管可作为高灵敏度温度传感器。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ea58/7782849/73bdb4598746/41467_2020_20209_Fig1_HTML.jpg

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通过精确的势垒工程有效调节有机半导体中的热激活电荷传输。

Effectively modulating thermal activated charge transport in organic semiconductors by precise potential barrier engineering.

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