材料科学
薄脆饼
半导体
纳米技术
光电子学
制作
场效应晶体管
薄膜
电极
晶体管
电压
电气工程
化学
病理
工程类
物理化学
医学
替代医学
作者
Minseung Gyeon,Jae Eun Seo,Saeyoung Oh,Gichang Noh,Chang‐Wook Lee,Minhyuk Choi,Seongdae Kwon,Tae Soo Kim,Hu Young Jeong,Seungwoo Song,Jiwon Chang,Kibum Kang
出处
期刊:ACS Nano
[American Chemical Society]
日期:2024-12-02
卷期号:18 (50): 33977-33987
被引量:22
标识
DOI:10.1021/acsnano.4c08160
摘要
Metal conversion processes have been instrumental in advancing semiconductor technology by facilitating the growth of thin-film semiconductors, including metal oxides and sulfides. These processes, widely used in the industry, enhance the semiconductor manufacturing efficiency and scalability, offering convenience, large-area fabrication suitability, and high throughput. Furthermore, their application to emerging two-dimensional (2D) semiconductors shows promise in addressing spatial control and layer number control challenges. In this work, we designed a multi-step metal conversion process for 2D materials to synthesize a high-quality and ultrauniform film. PtSe2 is introduced to utilize its wide-band-gap tunability, which exhibits both semiconductor and metallic properties. Our multi-step-grown PtSe2 film shows extremely low roughness (Ra = 0.107 nm) and improved interlayer quality compared to the single-step PtSe2 film. Additionally, we explored the growth mechanism of the metal conversion process and how the multi-step method contributes to the thickness uniformity of the film. We demonstrated a thin PtSe2 channel field-effect transistor (FET) array with p-type behavior with a maximum on/off ratio ∼103. The FET fabricated by the MoS2 channel with the semimetallic multi-step PtSe2 electrode shows an enhanced performance in mobility and contact resistance compared to the conventional single-step PtSe2 electrode FET.
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