从计算发现到高空穴迁移率有机晶体的实验表征。

From computational discovery to experimental characterization of a high hole mobility organic crystal.

机构信息

Department of Chemical Engineering, Stanford University, Stauffer III, 381 North-South Mall, Stanford, California 94305, USA.

出版信息

Nat Commun. 2011 Aug 16;2:437. doi: 10.1038/ncomms1451.

DOI:10.1038/ncomms1451

PMID:21847111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3366639/

Abstract

For organic semiconductors to find ubiquitous electronics applications, the development of new materials with high mobility and air stability is critical. Despite the versatility of carbon, exploratory chemical synthesis in the vast chemical space can be hindered by synthetic and characterization difficulties. Here we show that in silico screening of novel derivatives of the dinaphtho[2,3-b:2',3'-f]thieno[3,2-b]thiophene semiconductor with high hole mobility and air stability can lead to the discovery of a new high-performance semiconductor. On the basis of estimates from the Marcus theory of charge transfer rates, we identified a novel compound expected to demonstrate a theoretic twofold improvement in mobility over the parent molecule. Synthetic and electrical characterization of the compound is reported with single-crystal field-effect transistors, showing a remarkable saturation and linear mobility of 12.3 and 16 cm(2) V(-1) s(-1), respectively. This is one of the very few organic semiconductors with mobility greater than 10 cm(2) V(-1) s(-1) reported to date.

摘要

为了使有机半导体能够广泛应用于电子领域，开发具有高迁移率和空气稳定性的新材料至关重要。尽管碳具有多功能性，但在广阔的化学空间中进行探索性化学合成可能会受到合成和表征困难的阻碍。在这里，我们展示了通过计算筛选具有高空穴迁移率和空气稳定性的二萘并[2,3-b:2',3'-f]噻吩[3,2-b]噻吩半导体的新型衍生物，可以发现一种新的高性能半导体。基于 Marcus 电荷转移速率理论的估算，我们确定了一种新型化合物，预计其迁移率将比母体分子提高理论上的两倍。我们对该化合物进行了单晶场效应晶体管的合成和电特性表征，结果显示其饱和迁移率和线性迁移率分别高达 12.3 和 16 cm(2) V(-1) s(-1)。这是迄今为止报道的少数几个迁移率超过 10 cm(2) V(-1) s(-1)的有机半导体之一。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1f46/3366639/fc67e531bf70/ncomms1451-f1.jpg

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从计算发现到高空穴迁移率有机晶体的实验表征。

From computational discovery to experimental characterization of a high hole mobility organic crystal.

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