High performance black phosphorus field-effect transistors with vacuum-annealed low-resistance Ohmic contact

2018 76th Device Research Conference (DRC) Pub Date : 2018-06-01 DOI:10.1109/DRC.2018.8442273

Hyunik Park, Jinho Bae, Jihyun Kim

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引用次数: 2

Abstract

Layered black phosphorus (BP) exhibits desirable properties for nano-(opto)electronic device applications such as atomically thin body, direct bandgap (0.3 eV for bulk and 2.0 eV for monolayer), high carrier mobility of ~1,000 cm2/V·s, and current on/off ratio of ~105, which trigger intensive studies since its rediscovery. [1]–[3] However, high contact resistance caused by the formation of Schottky barrier and contamination at the metal-layered BP interface poses challenges in applying BP in device applications.[4] This problem becomes more serious for short-channel devices as the contact resistance is more dominant than the channel resistance, thereby, the device performance is limited by the contact resistance. Thermal annealing has been used as a promising technique for improving the contact properties in electronic devices. However, BP is vulnerable to the ambient molecules, especially in the elevated temperature, and deliberate studies of the thermal annealing on BP-based electronic devices are required. Here, the effect of post-fabrication vacuum annealing on the performance of BP field-effect transistor (FET) was investigated.

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具有真空退火低电阻欧姆接触的高性能黑磷场效应晶体管

层状黑磷(BP)在纳米(光电)电子器件应用中表现出理想的性能，如原子薄体、直接带隙(体层为0.3 eV，单层为2.0 eV)、载流子迁移率高达~1,000 cm2/V·s，电流通/关比为~105，自其被重新发现以来引发了广泛的研究。然而，由于肖特基势垒的形成和金属层状BP界面上的污染导致的高接触电阻给BP在器件中的应用带来了挑战对于短通道器件，由于接触电阻比通道电阻更占主导地位，因此，器件的性能受到接触电阻的限制，这一问题变得更加严重。热退火技术已成为改善电子器件接触性能的一种很有前途的技术。然而，BP易受环境分子的影响，特别是在高温下，需要对基于BP的电子器件的热退火进行深入研究。本文研究了制备后真空退火对BP场效应晶体管(FET)性能的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 76th Device Research Conference (DRC)

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