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Elucidating the time-dependent Charge Neutrality Point Modulation of Polymer-coated Graphene Field-effect Transistors in an Ambient Environment

石墨烯 材料科学 纳米技术 光电子学 钝化 场效应晶体管 晶体管 图层(电子) 电压 电气工程 工程类
作者
Nadia Norhakim,Thaachayinie Gunasilan,Zayyan Rafi Kesuma,Huzein Fahmi Hawari,Zainal Arif Burhanudin
出处
期刊:Nanotechnology [IOP Publishing]
卷期号:35 (50)
标识
DOI:10.1088/1361-6528/ad7b42
摘要

The charge neutrality point (CNP) is one of the essential parameters in the development of graphene field-effect transistors (GFETs). For GFET with an intrinsic graphene channel layer, the CNP is typically near-zero-volt gate voltage, implying that a well-balanced density of electrons and holes exists in the graphene channel layer. Fabricated GFET, however, typically exhibits CNP that is either positively or negatively shifted from the near-zero-volt gate voltage, implying that the graphene channel layer is unintentionally doped, leading to a unipolar GFET transfer characteristic. Furthermore, the CNP is also modulated in time, indicating that charges are dynamically induced in the graphene channel layer. In this work, understanding and mitigating the CNP shift were attempted by introducing passivation layers made of polyvinyl alcohol and polydimethylsiloxane onto the graphene channel layer. The CNP was found to be negatively shifted, recovered back to near-zero-volt gate voltage, and then positively shifted in time. By analyzing the charge density, carrier mobility, and correlation between the CNP and the charge density, it can be concluded that positive CNP shifts can be attributed to the charge trapping at the graphene/SiO2interface. The negative CNP shift, on the other hand, is caused by dipole coupling between dipoles in the polymer layer and carriers on the surface of the graphene layer. By gaining a deeper understanding of the intricate mechanisms governing the CNP shifts, an ambiently stable GFET suitable for next-generation electronics could be realized.
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