Journal Article10.1002/ADMT.201800265
One-Step Liquid Metal Transfer Printing: Toward Fabrication of Flexible Electronics on Wide Range of Substrates
153
Abstract: As soft conductive materials with high liquid fluidity, the room‐temperature liquid metal alloys (LMs) offer a superior alternative to the fabrication of flexible electronics. So far, techniques aiming at patterning LMs are seriously limited by the alloy's high surface tension and poor wettability with many substrates. Additionally, LMs based mass production with fast and efficient printing on desired target still encounters tremendous unsolved challenges. Here, a one‐step liquid metal transfer printing method with wide range substrate adaptability, comprising of polymer‐based adhesive glue, its printing machine, the LMs ink, and the soft substrate is presented. It is demonstrated that even on those substrates with weak wettability to LMs, the liquid metal transfer printing still works well to create complex conductive geometries, multilayer circuits, and large‐area conductive patterns with excellent transfer efficiency, facile fabrication process, and remarkable electrical stability, which is beneficial to quickly construct wearable electronics, 3D folding conductive structures, flexible actuators, soft robots, etc. Moreover, its advantages of self‐healing and recyclable ability make the strategy possible to prepare reconfigurable circuits and further reduce the cost of fabrication and environmental pollution. This study suggests an important way for future widespread practices of liquid metal soft functional electronics.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Highly Stretchable and Sensitive Pressure Sensor Array Based on Icicle-Shaped Liquid Metal Film Electrodes.
Yiqiu Zhang,Sidi Liu,Yihui Miao,Han Yang,Xuyue Chen,Xiang Xiao,Zhongyun Jiang,Xinjian Chen,Baoqing Nie,Jian Liu +9 more
TL;DR: A straightforward and cost-effective method to fabricate highly stretchable and sensitive capacitive pressure sensor arrays that features a unique design of integrating the icicle-shaped liquid metal film electrode and reliable processing of liquid metal and elastomer.
87
Semiliquid Metal Enabled Highly Conductive Wearable Electronics for Smart Fabrics.
Rui Guo,Huimin Wang,Xuyang Sun,Siyuan Yao,Hao Chang,Hongzhang Wang,Jing Liu,Jing Liu,Yingying Zhang +8 more
TL;DR: This work proposed a novel wearable electronics prepared through roller printing technology based on the adhesion difference of semi-liquid metal (Cu-EGaIn, eutectic gallium-indium mixed with copper micro-particles) on cotton fabrics and polyvinyl acetate (PVAC) glue that would play an important role in future design and fabrication of smart fabrics, contributing to the development of customized healthcare systems.
79
Cu–EGaIn enabled stretchable e-skin for interactive electronics and CT assistant localization
Rui Guo,Bixiao Cui,Xiaojing Zhao,Minghui Duan,Xuyang Sun,Ruiqi Zhao,Lei Sheng,Jing Liu,Jing Liu,Jie Lu +9 more
TL;DR: A simple, fast fabrication method for highly conductive and stretchable e-skin based on the adhesion selectivity of a semi-liquid metal (Cu–EGaIn) on laser printed toner and a polymethacrylate (PMA) coating is developed, which holds promise for future health care, surgical guidance and personalized entertainment.
78
Textile Electronics for VR/AR Applications
TL;DR: A systematic review of the literature on the state‐of‐the‐art of interactive devices, fabrication technologies, system integration, promising applications, and challenges involved in textile‐based VR/AR systems is presented.
77
Liquid metal enabled injectable biomedical technologies and applications
TL;DR: In this article, a review of liquid metal enabled injectable biomedical technology based on their unique characteristics, summarize the recent representative developments and the associated biomedical progress, and discuss scientific opportunities and challenges.
76
References
Super-hydrophobic surfaces: From natural to artificial
Lin Feng,Shuhong Li,Yingshun Li,Huanjun Li,Lingjuan Zhang,Jin Zhai,Yanlin Song,Biqian Liu,Lei Jiang,Daoben Zhu +9 more
TL;DR: In this article, a super-hydrophobic surface with both a large contact angle (CA) and a small sliding angle (α) has been constructed from carbon nanotubes.
4.2K
Super‐Hydrophobic Surfaces: From Natural to Artificial
Lin Feng,Shuhong Li,Yingshun Li,Huanjun Li,Lingjuan Zhang,Jin Zhai,Yanlin Song,Biqian Liu,Lei Jiang,Daoben Zhu +9 more
TL;DR: In this paper, a super-hydrophobic surface with both a large contact angle (CA) and a small sliding angle (α) has been constructed from carbon nanotubes.
2.5K
Eutectic Gallium-Indium (EGaIn) : A Liquid Metal Alloy for the Formation of Stable Structures in Microchannels at Room Temperature
Michael D. Dickey,Ryan C. Chiechi,Ryan J. Larsen,Emily A. Weiss,David A. Weitz,George M. Whitesides +5 more
TL;DR: In this paper, the authors describe the rheological behavior of the liquid metal eutectic gallium-indium (EGaIn) as it is injected into microfluidic channels to form stable microstructures of liquid metal.
1.4K
An autonomously electrically self-healing liquid metal-elastomer composite for robust soft-matter robotics and electronics.
TL;DR: A material architecture for soft and highly deformable circuit interconnects that are electromechanically stable under typical loading conditions, while exhibiting uncompromising resilience to mechanical damage is introduced.
895
Transformable liquid-metal nanomedicine
Yue Lu,Quanyin Hu,Yiliang Lin,Dennis B. Pacardo,Chao Wang,Wujin Sun,Frances S. Ligler,Michael D. Dickey,Zhen Gu +8 more
TL;DR: This transformable liquid-metal nanomedicine, based on a core–shell nanosphere composed of a liquid-phase eutectic gallium-indium core and a thiolated polymeric shell, provides a new strategy for engineering theranostic agents with low toxicity.