Single-Mask Fabrication of Sharp SiOx Nanocones

IF 2.3 3区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Eric Herrmann;Xi Wang
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引用次数: 0

Abstract

The patterning of silicon and silicon oxide nanocones onto the surfaces of devices introduces interesting phenomena such as anti-reflection and super-transmissivity. While silicon nanocone formation is well-documented, current techniques to fabricate silicon oxide nanocones either involve complex fabrication procedures, non-deterministic placement, or poor uniformity. Here, we introduce a single-mask dry etching procedure for the fabrication of sharp silicon oxide nanocones with smooth sidewalls and deterministic distribution using electron beam lithography. Silicon oxide films deposited using plasma-enhanced chemical vapor deposition are etched using a thin alumina hard mask of selectivity > 88, enabling high aspect ratio nanocones with smooth sidewalls and arbitrary distribution across the target substrate. We further introduce a novel multi-step dry etching technique to achieve ultra-sharp amorphous silicon oxide nanocones with tip diameters of ~10 nm. The processes presented in this work may have applications in the fabrication of amorphous nanocone arrays onto arbitrary substrates or as nanoscale probes.
单掩模制造尖锐氧化硅纳米锥体
将硅和氧化硅纳米锥图案化到设备表面会产生有趣的现象,如抗反射和超透射。虽然硅纳米锥的形成已得到充分证实,但目前制造氧化硅纳米锥的技术要么涉及复杂的制造程序,要么涉及不确定的放置位置,要么涉及较差的均匀性。在此,我们介绍一种单掩模干法蚀刻程序,用于利用电子束光刻技术制造具有光滑侧壁和确定性分布的尖锐氧化硅纳米锥。采用等离子体增强化学气相沉积沉积的氧化硅薄膜使用选择性大于 88 的薄氧化铝硬掩膜进行蚀刻,从而获得侧壁光滑、在目标基底上任意分布的高纵横比纳米锥。我们进一步介绍了一种新颖的多步骤干法蚀刻技术,以获得尖端直径约为 10 纳米的超锐利非晶硅氧化物纳米锥。这项工作中介绍的工艺可应用于在任意基底上制造非晶纳米锥阵列或用作纳米级探针。
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来源期刊
IEEE Transactions on Semiconductor Manufacturing
IEEE Transactions on Semiconductor Manufacturing 工程技术-工程:电子与电气
CiteScore
5.20
自引率
11.10%
发文量
101
审稿时长
3.3 months
期刊介绍: The IEEE Transactions on Semiconductor Manufacturing addresses the challenging problems of manufacturing complex microelectronic components, especially very large scale integrated circuits (VLSI). Manufacturing these products requires precision micropatterning, precise control of materials properties, ultraclean work environments, and complex interactions of chemical, physical, electrical and mechanical processes.
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