Investigations on terthiophene as an electrically conductive polymer for UV laser lithography

IF 0.8 4区 工程技术 Q4 INSTRUMENTS & INSTRUMENTATION Tm-Technisches Messen Pub Date : 2023-08-07 DOI:10.1515/teme-2023-0023
T. Ziemer, G. Ziegmann, C. Rembe
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Abstract

Abstract Polymers hold great potential for the use in microsensors and organic electronics. They are highly adaptable, easy to process and can contribute new or improved capabilities compared to semiconductors. Direct UV laser lithography also gains increasing attention. Because it avoids expensive photomasks, it is especially attractive where small numbers of specialized microcomponents are needed, like in prototyping. Lithography necessitates materials, which can be shaped by UV radiation. For many microsensor applications, there is the additional requirement of electric conductivity, preferably in the same material. We approached this demand by combining a novolak and terthiophene doped with copper(II) perchlorate to form an interpenetrating polymer network, which possesses properties of both of its constituents. From this, we manufactured test structures with the UV laser of a micro pattern generator. In previous conference contributions, we showed a first proof of principle. In this publication, we present results of new experiments that demonstrate the characteristics in more detail. We improved our electrical setup to conduct four-terminal measuring. We used it to first verify previous results and investigated the material’s response to alternating currents up to 10 kHz. We then compared the electrical resistivity of differently sized structures for temperatures between 20 and 90 °C and examined long-term stability of their resistance by subjecting samples to temperatures of up to 60 °C for several hours. Additionally, we tested the influence of UV radiation on the resistance. Our samples exhibited good lithographic qualities. Resistivities were around 2 Ω mm and temperature sensitivity up to −407 Ω K−1. UV radiation induced a partially reversible increase of the electric resistance. The long-term stability of the material was temperature-dependent.
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紫外激光光刻用噻吩导电聚合物的研究
聚合物在微传感器和有机电子学中具有巨大的应用潜力。与半导体相比,它们具有高度适应性,易于加工,并且可以提供新的或改进的功能。直接紫外激光光刻技术也受到越来越多的关注。因为它避免了昂贵的光罩,所以在需要少量专用微组件的情况下,比如在原型设计中,它特别有吸引力。光刻需要材料,这些材料可以通过紫外线辐射成形。对于许多微传感器应用,有电导率的额外要求,最好是在相同的材料。我们通过将novolak和掺有高氯酸铜(II)的噻吩结合形成互穿聚合物网络来满足这一需求,该网络具有其两种成分的特性。在此基础上,利用微图案发生器的紫外激光制作了测试结构。在之前的会议贡献中,我们展示了第一个原理证明。在这篇文章中,我们提出了新的实验结果,更详细地展示了这些特征。我们改进了我们的电气装置来进行四端测量。我们首先用它来验证之前的结果,并研究了材料对高达10 kHz的交流电的响应。然后,我们比较了不同尺寸结构在20至90 °C温度下的电阻率,并通过将样品置于高达60 °C的温度下数小时来检查其电阻的长期稳定性。此外,我们还测试了紫外线辐射对电阻的影响。我们的样品具有良好的光刻质量。电阻率约为2 Ω mm,温度灵敏度高达- 407 Ω K−1。紫外线辐射引起电阻部分可逆的增加。这种材料的长期稳定性与温度有关。
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来源期刊
Tm-Technisches Messen
Tm-Technisches Messen 工程技术-仪器仪表
CiteScore
1.70
自引率
20.00%
发文量
105
审稿时长
6-12 weeks
期刊介绍: The journal promotes dialogue between the developers of application-oriented sensors, measurement systems, and measurement methods and the manufacturers and measurement technologists who use them. Topics The manufacture and characteristics of new sensors for measurement technology in the industrial sector New measurement methods Hardware and software based processing and analysis of measurement signals to obtain measurement values The outcomes of employing new measurement systems and methods.
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