Droplet microfluidics coupled with artificial intelligence (AI) provides new opportunities for autonomous system optimization and control, enabling innovative functions and applications. This review elucidates the principles and functions of AI, and summarizes the intelligent microfluidic systems used in droplet generation, material synthesis, and biological analysis. The current challenges in combining AI and droplet microfluidics more widely are discussed, along with potential strategies to tackle these challenges. This review aims to deepen our understanding of intelligent droplet microfluidics and inspire functional designs for emerging demands.
Droplet microfluidics has emerged as a powerful technology to perform high-throughput experiments, while artificial intelligence (AI) serves as a functional tool to analyze a large set of multiplex data. Their convergence creates new opportunities in autonomous system optimization and control, enabling various innovative functions and applications. In this study, we elucidate the basic principles of AI and elaborate on its main functions. The intelligent microfluidic systems applied in droplet generation, material synthesis, and biological analysis are summarized, with their working mechanisms and enabled new functions highlighted. Moreover, we elucidate current challenges in a more widespread combination of AI and droplet microfluidics and offer our perspectives on potential strategies to tackle these challenges. We hope that this review can deepen our understanding of intelligent droplet microfluidics and inspire more functional designs tailored to emerging demands.
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