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短沟道有机薄膜晶体管(OTFT)栅极介质界面接触电阻的研究。

Investigation of gate dielectric interface on contact resistance of short channel organic thin film transistors (OTFT).

作者信息

Prasanthi Lingala, Panigrahy Asisa Kumar, Tata Subhashini, B Rohith Bala Jaswanth, Rao Talla Srinivasa, Prakash Matta Durga, Kundu Shovan Kumar

机构信息

Department of ECE, SRM University-AP, Mangalagiri, Andhra Pradesh, India.

Department of ECE, Faculty of Science and Technology (IcfaiTech), ICFAI Foundation for Higher Education Hyderabad, Hyderabad, Telangana, India.

出版信息

PLoS One. 2025 Sep 11;20(9):e0326929. doi: 10.1371/journal.pone.0326929. eCollection 2025.

DOI:10.1371/journal.pone.0326929
PMID:40934269
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12425321/
Abstract

This study provides a comprehensive analysis of the impact of the interfacial properties on the performance of organic thin-film transistors (OTFTs) with a hybrid dielectric of Al2O3/PVP compared to single-layer dielectrics of Al2O3 and PVP. The analyses were performed using the 2D Silvaco Atlas numerical simulator, which conducted a detailed numerical investigation into how varying the thickness ratio of Al2O3 and PVP in the dielectric affects contact resistance and off-state current in short-channel OTFTs. High-K dielectric materials, such as Al2O3, offer low threshold voltages but lead to increased contact resistance and leakage current, while low-K dielectrics like PVP reduce leakage current but suffer from lower mobility and higher contact resistance. By utilizing a hybrid Al2O3/PVP dielectric, we successfully reduced the contact resistance to 4.84 KΩ.cm2, as extracted from VDS-ID characteristics at a gate voltage of -2V. Additionally, contact resistance significantly influenced the off-state current, particularly in devices of short channel length (1 μm). The PVP layer, with thicknesses ranging from 2.4 nm to 4.2 nm, effectively reduced charge carrier traps at the semiconductor/dielectric interface, enhancing mobility. Furthermore, hysteresis effects were examined through C-V characteristics by sweeping the gate voltage from -3V to +3V. These findings highlight the trade-offs in optimizing PVP thickness to balance interface quality and electrical performance in hybrid dielectric OTFTs.

摘要

本研究全面分析了界面特性对具有Al2O3/PVP混合电介质的有机薄膜晶体管(OTFT)性能的影响,并与Al2O3和PVP单层电介质进行了比较。分析使用二维Silvaco Atlas数值模拟器进行,该模拟器对电介质中Al2O3和PVP厚度比的变化如何影响短沟道OTFT中的接触电阻和关态电流进行了详细的数值研究。高K电介质材料,如Al2O3,提供低阈值电压,但会导致接触电阻和漏电流增加,而低K电介质,如PVP,可降低漏电流,但迁移率较低且接触电阻较高。通过使用Al2O3/PVP混合电介质,我们成功地将接触电阻降低到4.84KΩ.cm2,这是在栅极电压为-2V时从VDS-ID特性中提取的。此外,接触电阻对关态电流有显著影响,特别是在短沟道长度(1μm)的器件中。厚度范围为2.4nm至4.2nm的PVP层有效地减少了半导体/电介质界面处的电荷载流子陷阱,提高了迁移率。此外,通过在-3V至+3V范围内扫描栅极电压,通过C-V特性研究了滞后效应。这些发现突出了在优化PVP厚度以平衡混合电介质OTFT中的界面质量和电性能方面的权衡。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a9db/12425321/e128f5fa897e/pone.0326929.g013.jpg
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