Compact Model Analysis for Low Voltage OFETs with Electrolytic Gate Dielectrics: Toward a Universal Model for Poly(3-Hexylthiophene) P3HT OFETs

T. Abhinav, G. Chandra, P. Predeep
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Abstract

The lightweight with flexibility and low-cost processing engineered the rapid growth of organic field-effect transistors (OFET) in the past three decades. Suitable compact models and parameter extraction methods are being developed to further the use of OFETs in integrated circuits, where stimulations are required to optimize the device performance. To simplify the parameter extraction, metaheuristic approaches are usually made, which otherwise is a cumbersome process. Following these, here investigations are made with the help of such a compact model to extract the operational parameters of P3HT (poly (3-hexylthiophene) based OFETs with electrolytic gate dielectrics using the genetic algorithm (GA) method. The result show that the compact model that was essentially developed in line with the successful models for inorganic material based FETs, can be used as an excellent framework for simulating low voltage OFETs made with both low and high mobility organic semiconductors. Mobility and threshold voltage calculated from the extracted parameters using GA for the two devices having mobility value differences of more than four orders are found to be nicely fitting with the experimental values. These results assume significance to the organic electronic industry as this facilitates the real-time circuit application of OFETs. KEYWORDS: Modeling, Low voltage OFET, Genetic algorithm, Ionic liquid, P3HT
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采用电解栅介质的低压ofet的紧凑模型分析:建立聚(3-己基噻吩)P3HT ofet的通用模型
在过去的三十年里,轻量化、灵活性和低成本的加工工艺推动了有机场效应晶体管(OFET)的快速发展。目前正在开发合适的紧凑模型和参数提取方法,以进一步在集成电路中使用ofet,在集成电路中需要刺激以优化器件性能。为了简化参数提取,通常采用元启发式方法,否则这是一个繁琐的过程。在此基础上,本文利用这种紧凑的模型,利用遗传算法(GA)方法提取基于P3HT(聚(3-己基噻吩)的电解栅电介质ofet的工作参数。结果表明,与无机材料基场效应管的成功模型基本一致的紧凑模型可以作为模拟由低迁移率和高迁移率有机半导体制成的低压场效应管的良好框架。对迁移率值相差大于4阶的两个器件,用遗传算法计算迁移率和阈值电压与实验值拟合较好。这些结果对有机电子工业具有重要意义,因为它促进了ofet的实时电路应用。关键词:建模,低压OFET,遗传算法,离子液体,P3HT
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