用于高性能图像传感器阵列的晶圆级MXene薄膜图案化

Patterning of Wafer-Scale MXene Films for High-Performance Image Sensor Arrays.

作者信息

Li Bo, Zhu Qian-Bing, Cui Cong, Liu Chi, Wang Zuo-Hua, Feng Shun, Sun Yun, Zhu Hong-Lei, Su Xin, Zhao Yi-Ming, Zhang Hong-Wang, Yao Jian, Qiu Song, Li Qing-Wen, Wang Xiao-Mu, Wang Xiao-Hui, Cheng Hui-Ming, Sun Dong-Ming

机构信息

Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences, 72 Wenhua Road, Shenyang, 110016, China.

School of Material Science and Engineering, University of Science and Technology of China, 96 Jinzhai Road, Hefei, 230026, China.

出版信息

Adv Mater. 2022 Apr;34(17):e2201298. doi: 10.1002/adma.202201298. Epub 2022 Mar 20.

DOI:10.1002/adma.202201298

PMID:35226775

Abstract

As a rapidly growing family of 2D transition metal carbides and nitrides, MXenes are recognized as promising materials for the development of future electronics and optoelectronics. So far, the reported patterning methods for MXene films lack efficiency, resolution, and compatibility, resulting in limited device integration and performance. Here, a high-performance MXene image sensor array fabricated by a wafer-scale combination patterning method of an MXene film is reported. This method combines MXene centrifugation, spin-coating, photolithography, and dry-etching and is highly compatible with mainstream semiconductor processing, with a resolution up to 2 µm, which is at least 100 times higher than other large-area patterning methods reported previously. As a result, a high-density integrated array of 1024-pixel Ti C T /Si photodetectors with a detectivity of 7.73 × 10 Jones and a light-dark current ratio (I /I ) of 6.22 × 10 , which is the ultrahigh value among all reported MXene-based photodetectors, is fabricated. This patterning technique paves a way for large-scale high-performance MXetronics compatible with mainstream semiconductor processes.

摘要

作为二维过渡金属碳化物和氮化物这一快速发展的材料家族，MXenes被认为是未来电子学和光电子学发展中很有前景的材料。到目前为止，已报道的MXene薄膜图案化方法缺乏效率、分辨率和兼容性，导致器件集成度和性能受限。在此，报道了一种通过MXene薄膜的晶圆级组合图案化方法制造的高性能MXene图像传感器阵列。该方法结合了MXene离心、旋涂、光刻和干法蚀刻，并且与主流半导体工艺高度兼容，分辨率高达2微米，这比之前报道的其他大面积图案化方法至少高100倍。结果，制造出了一个1024像素的Ti₃C₂Tₓ/Si光电探测器的高密度集成阵列，其探测率为7.73×10¹² Jones，光暗电流比（Iₗ/Iₒ）为6.22×10⁵，这是所有已报道的基于MXene的光电探测器中的超高值。这种图案化技术为与主流半导体工艺兼容的大规模高性能MXetronics铺平了道路。

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用于高性能图像传感器阵列的晶圆级MXene薄膜图案化

Patterning of Wafer-Scale MXene Films for High-Performance Image Sensor Arrays.

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