Tension-driven three-dimensional printing of free-standing Field’s metal structures

IF 33.7 1区 工程技术 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Shaohua Ling, Xi Tian, Qihang Zeng, Zhihang Qin, Selman A. Kurt, Yu Jun Tan, Jerry Y. H. Fuh, Zhuangjian Liu, Michael D. Dickey, John S. Ho, Benjamin C. K. Tee
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Abstract

The direct writing of complex three-dimensional (3D) metallic structures is of use in the development of advanced electronics. However, conventional direct ink writing primarily uses composite inks that have low electrical conductivity and require support materials to create 3D architectures. Here we show that Field’s metal—a eutectic alloy with a relatively low melting point—can be 3D printed using a process in which tension between the molten metal in a nozzle and the leading edge of the printed part allows 3D structures to be directly written. The use of tension avoids using external pressure for extrusion (which can cause beading of the printed structure), allowing uniform and smooth microwire structures to be printed on various substrates with speeds of up to 100 mm s−1. We use the approach to print various free-standing 3D structures—including vertical letters, a cubic framework and scalable helixes—without post-treatment, and the resulting Field’s metal structures can offer electrical conductivity of 2 × 104 S cm−1, self-healing capability and recyclability. We also use the technique to print a 3D circuit for wearable battery-free temperature sensing, hemispherical helical antennas for wireless vital sign monitoring and 3D metamaterials for electromagnetic-wave manipulation. Free-standing metallic structures with high conductivities and aspect ratios can be 3D printed from Field’s metal using a direct ink writing method that avoids using external pressure to drive ink through the nozzle.

Abstract Image

Abstract Image

独立菲尔德金属结构的张力驱动三维打印
直接书写复杂的三维(3D)金属结构在先进电子产品的开发中非常有用。然而,传统的直接写入油墨主要使用导电性较低的复合油墨,并且需要辅助材料来创建三维结构。在这里,我们展示了菲尔德的金属--一种熔点相对较低的共晶合金--可以通过喷嘴中的熔融金属与打印部件前缘之间的张力进行三维打印,从而直接写入三维结构。张力的使用避免了使用外部压力进行挤压(这可能会导致打印结构出现串珠),从而可以在各种基底上以高达 100 mm s-1 的速度打印出均匀光滑的微线结构。我们利用这种方法打印出各种独立的三维结构,包括垂直字母、立方体框架和可扩展的螺旋线,而无需进行后处理,所打印出的 Field 金属结构可提供 2 × 104 S cm-1 的导电性、自愈能力和可回收性。我们还利用这项技术打印了用于可穿戴无电池温度传感的三维电路、用于无线生命体征监测的半球形螺旋天线以及用于电磁波操纵的三维超材料。
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来源期刊
Nature Electronics
Nature Electronics Engineering-Electrical and Electronic Engineering
CiteScore
47.50
自引率
2.30%
发文量
159
期刊介绍: Nature Electronics is a comprehensive journal that publishes both fundamental and applied research in the field of electronics. It encompasses a wide range of topics, including the study of new phenomena and devices, the design and construction of electronic circuits, and the practical applications of electronics. In addition, the journal explores the commercial and industrial aspects of electronics research. The primary focus of Nature Electronics is on the development of technology and its potential impact on society. The journal incorporates the contributions of scientists, engineers, and industry professionals, offering a platform for their research findings. Moreover, Nature Electronics provides insightful commentary, thorough reviews, and analysis of the key issues that shape the field, as well as the technologies that are reshaping society. Like all journals within the prestigious Nature brand, Nature Electronics upholds the highest standards of quality. It maintains a dedicated team of professional editors and follows a fair and rigorous peer-review process. The journal also ensures impeccable copy-editing and production, enabling swift publication. Additionally, Nature Electronics prides itself on its editorial independence, ensuring unbiased and impartial reporting. In summary, Nature Electronics is a leading journal that publishes cutting-edge research in electronics. With its multidisciplinary approach and commitment to excellence, the journal serves as a valuable resource for scientists, engineers, and industry professionals seeking to stay at the forefront of advancements in the field.
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