纳米压印技术和背面紫外线光刻技术用于制造具有更高纵横比的金属纳米结构。

IF 2.9 4区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yu-Chun Ding, Yung-Chun Lee
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引用次数: 0

摘要

本文介绍了一种利用纳米压印光刻技术(NIL)提高金属纳米结构纵横比的创新方法。虽然传统的 NIL 和金属掀离工艺可以制造金属纳米结构,但可实现的高宽比往往受到 NIL 固有限制的制约。在本研究中,我们证明了对于紫外线(UV)透明基底,通过 NIL 制图案的金属纳米结构可用作光掩模。然后在图案化的金属纳米结构上沉积负色调光阻 (PR) 层。用紫外光从背面照射基底,然后显影负色调光刻胶,就能获得与金属层互补和自对准的负色调光刻胶结构。这就实现了第二轮金属沉积和脱模,从而增加了金属结构的高度并提高了纵横比。实验证明,这种方法可以将纵横比从小于 1.0 提高到高达 2.1。本文还探讨了这一技术的进一步发展和潜在应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nanoimprinting and backside ultraviolet lithography for fabricating metal nanostructures with higher aspect ratio.

This paper introduces an innovative approach to increasing the aspect ratio of metal nanostructures fabricated using nanoimprint lithography (NIL). Although conventional NIL and metal lift-off processes can fabricate metal nanostructures, the achievable aspect ratio is often limited by the inherent constraints of NIL. In this study, we demonstrate that for an ultraviolet (UV) transparent substrate, metal nanostructures patterned via NIL can serve as a photomask. A negative-tone photoresist (PR) layer was then deposited on top of the patterned metal nanostructures. By illuminating the substrate from the backside with UV light and subsequently developing the PR, PR structures complementary and self-aligned to the metal layer were obtained. This enabled a second round of metal deposition and lift-off, thereby increasing the height of the metal structures and enhancing the aspect ratio. Experimentally, we demonstrated that this method can improve the aspect ratio from less than 1.0 to as high as 2.1. This paper also addresses the further developments and potential applications of this technique.

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来源期刊
Nanotechnology
Nanotechnology 工程技术-材料科学:综合
CiteScore
7.10
自引率
5.70%
发文量
820
审稿时长
2.5 months
期刊介绍: The journal aims to publish papers at the forefront of nanoscale science and technology and especially those of an interdisciplinary nature. Here, nanotechnology is taken to include the ability to individually address, control, and modify structures, materials and devices with nanometre precision, and the synthesis of such structures into systems of micro- and macroscopic dimensions such as MEMS based devices. It encompasses the understanding of the fundamental physics, chemistry, biology and technology of nanometre-scale objects and how such objects can be used in the areas of computation, sensors, nanostructured materials and nano-biotechnology.
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