The attention in lab-on-a-chip devices with their potent application medical engineering has prolonged swiftly over the last ten years. Travelling through technology development, innovative microfluidics shown enormous potential to lift biomedical research traditions that are not imaginable using conventional techniques. advances arena of have prompted high-tech uprisings numerous disciplines, including diagnostics, single-cell analysis, micro- and nano device fabrication, organ-in-chip platforms, med-tech applications. speedy development is motivated by cumulative cooperation among central nanomaterials microfluidic aptitudes range Microfluidic gadgets presently undertake a significant part organic, synthetic, designing applications, multiple approaches create vital channel highlight measurements. In this review, critical assessments on frontiers platforms carried out towards advancements capabilities for new-edge It been exhibited offers scope benefits contrasted customary strategies, further developed controllability consistency specified nanomaterial attributes. Herein, authors discussed how innumerable empower manufacture systems advanced optical, mechanical, electrical chemical, bio-interfacial properties ranging from basics microfluidics, various factors, types, fabrication procedure A comprehensive investigation state-of-the-art usage field steered exemplarily understand advantages. Moreover, our assessment provides an interdisciplinary overview modern microfabrication strategies can be adopted academic industrial interests.

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