I-V-characteristics of Schottky diodes based on graphene/n-Si heterostructures

Tekhnologiya i Konstruirovanie v Elektronnoi Apparature Pub Date : 2023-01-01 DOI:10.15222/tkea2023.1-2.03

I. P. Koziarskyi, M. I. Ilashchuk, I. G. Orletskyi, D. P. Koziarskyi, L. A. Myroniuk, D. V. Myroniuk, A. I. Ievtushenko, I. M. Danylenko, E. V. Maistruk

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Abstract

The authors investigated the electrical properties of graphene/n-Si Schottky diode heterostructures obtained by mechanical exfoliation of graphite to thin-layer graphene in an aqueous solution of polyvinylpyrrolidone as a result of the dynamics of the dispersed graphite mixture under the action of a mechanical blender. The graphene/n-Si structures differed in terms of duration of applying graphene films on n-Si substrates: 5, 10 and 15 min. The temperature of the substrates did not exceed 250°C. The formation of graphene layers was confirmed by the study of Raman scattering spectra in the frequency range of 1000—3250 cm–1, which show G and 2D bands with the features characteristic of low-layer graphene. The dependence of the electrical properties of the investigated surface-barrier graphene/n-Si structures on the duration of sputtering of graphene films was established. It was found that the value of the contact potential difference φk was 1.35, 1.32 and 1.27 V and the series resistance at room temperature was 3.4•106, 3.4•103 and 3.7•103 Ω for structures with the duration of graphene layer deposition 5, 10 and 15 min, respectively. The formation of both forward and reverse currents was dominated by the tunneling of charge carriers through the potential barrier.

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基于石墨烯/n-Si异质结构的肖特基二极管的i - v特性

作者研究了分散的石墨混合物在机械搅拌机的作用下，在聚乙烯吡咯烷酮水溶液中，石墨机械剥落成薄层石墨烯，从而获得石墨烯/n-Si肖特基二极管异质结构的电学性质。石墨烯/n-Si结构在n-Si衬底上应用石墨烯薄膜的时间不同:5,10和15分钟。衬底的温度不超过250°C。在1000 ~ 3250 cm-1频率范围内的拉曼散射光谱研究证实了石墨烯层的形成，显示出具有低层石墨烯特征的G和2D波段。研究了表面势垒石墨烯/n-Si结构的电学性能与石墨烯薄膜溅射时间的关系。结果表明，当石墨烯层沉积时间为5、10和15 min时，结构的接触电位差φk分别为1.35、1.32和1.27 V，室温下串联电阻分别为3.4•106、3.4•103和3.7•103 Ω。正反电流的形成主要是电荷载流子通过势垒的隧穿。

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Tekhnologiya i Konstruirovanie v Elektronnoi Apparature

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4 weeks