Microfluidic paper-based chips in rapid detection: Current status, challenges, and perspectives

Microfluidic paper-based chips (mu PCs) are micro-laboratory analysis systems that use paper instead of traditional microfluidic substrate materials and miniaturize biochemical reactions. Based on traditional 2D mu PCs, the novel mu PCs are innovative 3D structure chips that are realized by fluid channel construction, channel microvalve, folding and other fluid control methods. In recent years, mu PCs have developed rapidly in terms of design and integration and have been widely used in food safety, environmental residue pollution, pathogen detection and other applications. Due to their advantages of low cost, portability and satisfactory thermal stability, they have unique potential in the field of rapid detection. Herein, based on the detailed preparation, we focus on the selection of the paper substrate, microfluidic chip hydrophilic/hydrophobic processing and substrate modification. We highlight the latest research progress of mu PCs in rapid detection from 2014 to 2021, and discuss the remaining challenges and future perspectives for further development. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

Microfluidic paper-based chips (mu PCs) are innovative 3D structure chips that miniaturize biochemical reactions by using paper as a substrate material. With advantages of low cost, portability, and thermal stability, they have unique potential in rapid detection applications such as food safety, environmental pollution, and pathogen detection. Ongoing research focuses on the selection of paper substrates, hydrophilic/hydrophobic processing, and modification for further development in the field.