微流控
气泡
纳米技术
计算机科学
浮力
实验室晶片
生化工程
材料科学
工程类
机械
物理
并行计算
作者
Mingpeng Yang,Nan Sun,Yong Luo,Xiaochen Lai,Peiru Li,Zhenyu Zhang
出处
期刊:Biomicrofluidics
[American Institute of Physics]
日期:2022-05-01
卷期号:16 (3): 031503-031503
被引量:21
摘要
Bubbles in microfluidics—even those that appear to be negligibly small—are pervasive and responsible for the failure of many biological and chemical experiments. For instance, they block current conduction, damage cell membranes, and interfere with detection results. To overcome this unavoidable and intractable problem, researchers have developed various methods for capturing and removing bubbles from microfluidics. Such methods are multifarious and their working principles are very different from each other. In this review, bubble-removing methods are divided into two broad categories: active debubblers (that require external auxiliary equipment) and passive debubblers (driven by natural processes). In each category, three main types of methods are discussed along with their advantages and disadvantages. Among the active debubblers, those assisted by lasers, acoustic generators, and negative pressure pumps are discussed. Among the passive debubblers, those driven by buoyancy, the characteristics of gas–liquid interfaces, and the hydrophilic and hydrophobic properties of materials are discussed. Finally, the challenges and prospects of the bubble-removal technologies are reviewed to refer researchers to microfluidics and inspire further investigations in this field.
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