摘要
微流控技术近年来在生命科学和分析化学等领域得到了非常广泛的应用,具有检测精度高、检测速度快、试剂消耗少、能耗与成本低廉等特点。目前,很多生命科学和分析化学领域的研究者都已经或希望将微流控技术引入其实验研究中,从而推动相关研究的进展。为了引入微流控技术,就需要在现有实验室硬件设备的基础之上进行扩充,以满足微流控芯片的制备、表征和测试等需求。本文针对微流控芯片实验室的硬件设备建设策略与方法进行了讨论,从芯片加工设备、表征设备与测试设备等方面入手,探讨了面向生命科学和分析化学等领域应用的微流控芯片实验室硬件建设策略和方法,着重强调了微流控芯片实验室硬件设备的低成本以及设备的易用性和成套性。
Microfluidic technology has been widely used in life science and analytical chemistry fields in recent years.Microfluidics has the advantages of high detection accuracy,fast detection speed,low reagent consumption,low energy consumption,and low cost.At present,many researchers in the field of life sciences and analytical chemistry have already or hope to introduce microfluidic technology into their experimental research,in order to promote the progress of their research.In order to introduce microfluidic technology in the current laboratory setup,it is necessary to expand hardware equipment to meet the requirements of microfluidic chip fabrication,characterization,and testing.This article discusses the instrumentation strategy of the microfluidic chip laboratory,with the aspects of chip fabrication equipment,characterization equipment and test equipment.The discussion of this study emphasizes the ease of use and low cost of the hardware instruments in the microfluidics lab.
作者
范一强
Yiqiang Fan(School of mechanical and electrical engineering,Beijing University of Chemical Science,Beijing,100029)
出处
《现代科学仪器》
2020年第3期74-79,共6页
Modern Scientific Instruments
关键词
微流控
实验室设备
microfluidics
laboratory equipment
