Probing Carrier Transport and Structure-Property Relationship of Highly Ordered Organic Semiconductors at the Two-Dimensional Limit

Probing Carrier Transport and Structure-Property Relationship of Highly Ordered Organic Semiconductors at the Two-Dimensional Limit

One of the basic assumptions in organic field-effect transistors, the most fundamental device unit in organic electronics, is that charge transport occurs two dimensionally in the first few molecular layers near the dielectric interface. Although the mobility of bulk organic semiconductors has incre...

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Veröffentlicht in:Physical review letters 2016-01, Vol.116 (1), p.016602-016602, Article 016602
Hauptverfasser: Zhang, Yuhan, Qiao, Jingsi, Gao, Si, Hu, Fengrui, He, Daowei, Wu, Bing, Yang, Ziyi, Xu, Bingchen, Li, Yun, Shi, Yi, Ji, Wei, Wang, Peng, Wang, Xiaoyong, Xiao, Min, Xu, Hangxun, Xu, Jian-Bin, Wang, Xinran
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Charge transport
Devices
Electronics
Modulation
Molecular structure
Organic semiconductors
Thin films
Two dimensional
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container_issue 1
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container_title Physical review letters
container_volume 116
creator Zhang, Yuhan
Qiao, Jingsi
Gao, Si
Hu, Fengrui
He, Daowei
Wu, Bing
Yang, Ziyi
Xu, Bingchen
Li, Yun
Shi, Yi
Ji, Wei
Wang, Peng
Wang, Xiaoyong
Xiao, Min
Xu, Hangxun
Xu, Jian-Bin
Wang, Xinran
description One of the basic assumptions in organic field-effect transistors, the most fundamental device unit in organic electronics, is that charge transport occurs two dimensionally in the first few molecular layers near the dielectric interface. Although the mobility of bulk organic semiconductors has increased dramatically, direct probing of intrinsic charge transport in the two-dimensional limit has not been possible due to excessive disorders and traps in ultrathin organic thin films. Here, highly ordered single-crystalline mono- to tetralayer pentacene crystals are realized by van der Waals (vdW) epitaxy on hexagonal BN. We find that the charge transport is dominated by hopping in the first conductive layer, but transforms to bandlike in subsequent layers. Such an abrupt phase transition is attributed to strong modulation of the molecular packing by interfacial vdW interactions, as corroborated by quantitative structural characterization and density functional theory calculations. The structural modulation becomes negligible beyond the second conductive layer, leading to a mobility saturation thickness of only ∼3  nm. Highly ordered organic ultrathin films provide a platform for new physics and device structures (such as heterostructures and quantum wells) that are not possible in conventional bulk crystals.
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source American Physical Society Journals
subjects Charge transport
Devices
Electronics
Modulation
Molecular structure
Organic semiconductors
Thin films
Two dimensional
title Probing Carrier Transport and Structure-Property Relationship of Highly Ordered Organic Semiconductors at the Two-Dimensional Limit
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