体掺杂有机单晶中的霍尔效应。

Hall Effect in Bulk-Doped Organic Single Crystals.

机构信息

Institute for Molecular Science (IMS), 5-1 Higashiyama, Myodaiji, Okazaki, Aichi, 444-8787, Japan.

Department of Functional Molecular Science, The Graduate University for Advanced Studies (SOKENDAI), 5-1 Higashiyama, Myodaiji, Okazaki, Aichi, 444-8787, Japan.

出版信息

Adv Mater. 2017 Jun;29(23). doi: 10.1002/adma.201605619. Epub 2017 Apr 18.

DOI:10.1002/adma.201605619

PMID:28417482

Abstract

The standard technique to separately and simultaneously determine the carrier concentration per unit volume (N, cm ) and the mobility (μ) of doped inorganic single crystals is to measure the Hall effect. However, this technique has not been reported for bulk-doped organic single crystals. Here, the Hall effect in bulk-doped single-crystal organic semiconductors is measured. A key feature of this work is the ultraslow co-deposition technique, which reaches as low as 10 nm s and enables us to dope homoepitaxial organic single crystals with acceptors at extremely low concentrations of 1 ppm. Both the hole concentration per unit volume (N, cm ) and the Hall mobility (μ ) of bulk-doped rubrene single crystals, which have a band-like nature, are systematically observed. It is found that these rubrene single crystals have (i) a high ionization rate and (ii) scattering effects because of lattice disturbances, which are peculiar to this organic single crystal.

摘要

标准的技术，以分别和同时确定的载体浓度每单位体积（ N ，厘米）和迁移率（ μ ）的掺杂无机单晶是衡量霍尔效应。然而，这项技术并没有被报道为块状掺杂的有机单晶。在这里，霍尔效应在块状掺杂的有机半导体单晶进行了测量。这项工作的一个关键特点是超慢共沉积技术，它达到低至 10 毫微米秒，并使我们能够掺杂同型外延有机单晶与受体在极低浓度的 1 ppm 。无论是空穴浓度每单位体积（ N ，厘米）和霍尔迁移率（ μ ）的块状掺杂并五苯单晶，这是带式的性质，系统地观察到。结果发现，这些并五苯单晶有（ i ）高的电离率和（二）散射效应，因为晶格的干扰，这是特殊的这种有机单晶。

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体掺杂有机单晶中的霍尔效应。

Hall Effect in Bulk-Doped Organic Single Crystals.

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