Generation of Nonspherical Liquid Metal Microparticles with Tunable Shapes Exhibiting an Electrostatic-Responsive Performance.
Shiyu WangZhiqiang ZhuCanzhen MaRan QiaoChaoyu YangRonald X XuTing SiPublished in: ACS applied materials & interfaces (2021)
Nonspherical liquid metal microparticles (NLMs) show extraordinary potential in various applications due to their multifunctional and structural advantages. To one-step-produce shaped NLMs with high efficiency, high controllability, and free of template, a facile microfluidic strategy named rotary flow shearing (RFS) is reported. A high-speed viscous shearing flow is provided by two counter-rotating rotors in the carrier fluid, inducing continuous pinch-off of liquid metal flowing from a capillary tube positioned in face of the slit between two rotors. The real-time oxidation realizes the rapid solidification of the pinching neck and the liquid metal surface during the RFS process, resulting in massive NLMs. Different from other microfluidic methods, the RFS enables tunable shapes of NLMs, especially for working materials at high viscosities. The collected NLMs exhibit special electrostatic-responsive performances including translation, rotation, reciprocation, and lining up under the manipulation of an external electric field. Such NLMs can be promisingly used for the construction of novel micromotors and soft electronics.
Keyphrases
- high speed
- high efficiency
- ionic liquid
- cancer therapy
- circulating tumor cells
- high throughput
- single cell
- atomic force microscopy
- molecular dynamics simulations
- human health
- high resolution
- risk assessment
- gold nanoparticles
- energy transfer
- mass spectrometry
- liquid chromatography
- single molecule
- tandem mass spectrometry