双叔丁基乙二氧噻吩稳定自由基阳离子的合成及其在有机半导体掺杂中的应用

IF 13 2区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Small Pub Date : 2025-06-06 DOI:10.1002/smll.202503035

Yeasin Khan, Jae Hyun Lee, Jin Hee Lee, Nathan Plassais, Faiza Shoukat, Jung Hwa Seo, Bright Walker

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引用次数: 0

摘要

由乙烯二氧基噻吩（EDOT）衍生的一种高度稳定的分子自由基阳离子（RC）被有效地用于有机半导体聚3-己基噻吩（P3HT）的p-掺杂。这一过程的成功是由于电子从P3HT的最高占据分子轨道带有效地转移到自由基阳离子的单未占据分子轨道。通过紫外-可见-近红外吸收光谱和电子自旋共振光谱实验证实了掺杂的存在。对共轭聚合物PBTTT和PTB7的掺杂能力也得到了光谱证实。掺杂后P3HT的功函数增加是由于电子从P3HT转移到自由基阳离子，同时P3HT的费米能降低。阻抗和四点探针分析表明，与未掺杂的聚合物薄膜相比，掺杂聚合物薄膜的电阻明显降低。这项工作首次提出了一种稳定、易于合成的edot基自由基阳离子作为共轭聚合物的分子p掺杂剂，为F4TCNQ等传统掺杂剂提供了一种新颖且广泛适用的替代品。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Synthesis of a Stable Radical Cation of Bis-Tert-Butyl Ethylenedioxythiophene and its Application as a Dopant in Organic Semiconductors

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Synthesis of a Stable Radical Cation of Bis-Tert-Butyl Ethylenedioxythiophene and its Application as a Dopant in Organic Semiconductors

A highly stable molecular radical cation (RC) derived from ethylenedioxy thiophene (EDOT) is effectively utilized for the p-doping of poly-3-hexylthiophene (P3HT), an organic semiconductor. The success of this process is due to efficient electron transfer from the highest occupied molecular orbital band of P3HT to the singly unoccupied molecular orbital of the radical cation species. Confirmation of the doping is experimentally confirmed through UV–vis-NIR absorption spectroscopy and electron spin resonance spectroscopy. The ability to dope the conjugated polymers PBTTT and PTB7 is also spectroscopically confirmed. An increase in work-function of P3HT upon doping is observed due to electron transfer from P3HT to the radical cation with a concomitant decrease in the Fermi energy of P3HT. Impedance and four point probe analysis showed that the doped polymer films exhibited a significant decrease in resistance compared to the pristine films. This work presents the first use of a stable, easily synthesized EDOT-based radical cation as a molecular p-dopant for conjugated polymers, offering a novel and broadly applicable alternative to traditional dopants such as F₄TCNQ.

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来源期刊

Small 工程技术-材料科学：综合

CiteScore

17.70

自引率

3.80%

发文量

1830

审稿时长

2.1 months

期刊介绍： Small serves as an exceptional platform for both experimental and theoretical studies in fundamental and applied interdisciplinary research at the nano- and microscale. The journal offers a compelling mix of peer-reviewed Research Articles, Reviews, Perspectives, and Comments. With a remarkable 2022 Journal Impact Factor of 13.3 (Journal Citation Reports from Clarivate Analytics, 2023), Small remains among the top multidisciplinary journals, covering a wide range of topics at the interface of materials science, chemistry, physics, engineering, medicine, and biology. Small's readership includes biochemists, biologists, biomedical scientists, chemists, engineers, information technologists, materials scientists, physicists, and theoreticians alike.