Development and application of bio-inspired microfluidics

Abstract

Bio-inspired microfluidic systems can be obtained through multidisciplinary approaches by using bio-inspired structural and functional designs for the microfluidic devices. This review mainly focuses on the concept of bio-inspired microfluidics to improve the properties of microfluidic systems for breaking through the bottlenecks of the current microfluidic devices, such as anti-fouling, smart, and dynamic response inside the microchannels under different environments. In addition, here, we show the current research progress of bio-inspired microfluidic systems in applications related to anti-fouling and smart devices, and biomedical research. The review discusses both physical theories and critical technologies in the bio-inspired microfluidics, from biomimetic design to real-world applications, so as to offer new ideas for the design and application of smart microfluidics, and the authors hope this review will inspire the active interest of many scientists in the area of the development and application of soft matter, and multifunctional and smart bio-inspired devices.