用于超薄透明柔性电路板的原生氧化物的环境打印。

Ambient printing of native oxides for ultrathin transparent flexible circuit boards.

作者信息

Kong Minsik, Vong Man Hou, Kwak Mingyu, Lim Ighyun, Lee Younghyun, Lee Seong-Hun, You Insang, Awartani Omar, Kwon Jimin, Shin Tae Joo, Jeong Unyong, Dickey Michael D

机构信息

Department of Materials Science and Engineering, Pohang University of Science and Technology (POSTECH), Pohang 37673, Republic of Korea.

Department of Chemical and Biomolecular Engineering, North Carolina State University (NCSU), Raleigh, NC 27606, USA.

出版信息

Science. 2024 Aug 16;385(6710):731-737. doi: 10.1126/science.adp3299. Epub 2024 Aug 15.

DOI:10.1126/science.adp3299

PMID:39146401

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.

摘要

金属氧化物薄膜在大多数电子设备中至关重要，但它们通常是在高温下通过缓慢的基于真空的工艺沉积的。我们通过在目标基板上移动熔融金属弯月面，在环境条件下大面积印刷原生氧化物薄膜。氧化物通过弯月面中出现的流体不稳定性与金属轻轻分离，从而形成无液体残留的均匀薄膜。印刷的氧化物有一个金属中间层，使薄膜具有高导电性。印刷薄膜的金属特性促进了微量蒸发金的润湿，否则这些金会在传统氧化物表面形成不连续的岛状物。由此产生的超薄（<10纳米）导体可以被图案化为柔性电路，这些电路即使在高温下也是透明的、机械坚固的且电稳定的。

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用于超薄透明柔性电路板的原生氧化物的环境打印。

Ambient printing of native oxides for ultrathin transparent flexible circuit boards.

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