金属酸化物薄膜回路を室温で印刷する新技術を開発(New Technique Prints Metal Oxide Thin Film Circuits at Room Temperature)

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2024-08-15 ノースカロライナ州立大学(NCState)

金属酸化物薄膜回路を室温で印刷する新技術を開発(New Technique Prints Metal Oxide Thin Film Circuits at Room Temperature)

研究者たちは、室温で金属酸化物の薄膜を印刷する技術を開発し、それを使って透明で柔軟な回路を作成しました。この技術により、従来の高温かつ高価な装置を使わずに、金属酸化物の薄膜を印刷できるようになりました。研究では、薄膜が高温でも導電性を維持し、柔軟な基板に印刷しても40,000回の折り畳みに耐えることが示されました。この技術は、電子機器の新たな応用を探るための産業パートナーとの協力を期待しています。

<関連情報>

超薄型透明フレキシブル回路基板のためのネイティブ酸化物の常温印刷 Ambient printing of native oxides for ultrathin transparent flexible circuit boards

Minsik Kong, Man Hou Vong, Mingyu Kwak, Ighyun Lim, […], and Michael D. Dickey
Science  Published:15 Aug 2024
DOI:https://doi.org/10.1126/science.adp3299

Editor’s summary

Metal oxide films are useful for a number of applications but are often challenging to synthesize. Kong et al. developed a liquid metal–based printing method that allows the surface oxide film to be easily removed. This film has a high electrical conductivity that the authors stabilized by depositing small amounts of metal onto it. The resulting thin film is transparent but still has high conductivity and is mechanically stable. This strategy could potentially be used to develop flexible circuits that are robust even at elevated temperatures. —Brent Grocholski

Abstract

Metal oxide films are essential in most electronic devices, yet they are typically deposited at elevated temperatures by using slow, vacuum-based processes. We printed native oxide films over large areas at ambient conditions by moving a molten metal meniscus across a target substrate. The oxide gently separates from the metal through fluid instabilities that occur in the meniscus, leading to uniform films free of liquid residue. The printed oxide has a metallic interlayer that renders the films highly conductive. The metallic character of the printed films promotes wetting of trace amounts of evaporated gold that would otherwise form disconnected islands on conventional oxide surfaces. The resulting ultrathin (<10 nanometers) conductors can be patterned into flexible circuits that are transparent, mechanically robust, and electrically stable, even at elevated temperatures.

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