Dept. of Measurement Technology and Industrial Electrical Engineering, Div. of Nanobiotechnology, Lund University, Lund, Sweden.
Lab Chip. 2012 Feb 21;12(4):684-95. doi: 10.1039/c1lc20996e. Epub 2012 Jan 16.
Acoustophoresis is getting more attention as an effective and gentle non-contact method of manipulating cells and particles in microfluidic systems. A key to a successful assembly of an acoustophoresis system is a proper design of the acoustic resonator where aspects of fabrication techniques, material choice, thickness matching of involved components, as well as strategies of actuation, all have to be considered. This tutorial covers some of the basics in designing and building microfluidic acoustic resonators and will hopefully be a comprehensive and advisory document to assist the interested reader in creating a successful acoustophoretic device.
声悬浮技术作为一种在微流控系统中有效且温和的非接触式操控细胞和粒子的方法,越来越受到关注。成功组装声悬浮系统的关键在于声学谐振器的合理设计,其中涉及制造技术、材料选择、相关组件的厚度匹配以及激励策略等方面都需要考虑。本教程涵盖了设计和构建微流道声学谐振器的一些基础知识,希望能为有兴趣的读者提供一份全面的参考文件,帮助他们成功创建声悬浮装置。
