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Acoustofluidics-Assisted Multifunctional Paper-Based Analytical Devices

Xiong Zhao, Zihan Ding, Hongqiang Chen, Yaxuan Xiao, Junsheng Hou, Lei Huang, Junjie Wu, Nanjing Hao

2023Analytical Chemistry12 citationsDOI

Abstract

Microfluidic paper-based analytical devices (μPADs) feature an economic and sensitive nature, while acoustofluidics displays contactless and versatile virtue, and both of them gained tremendous interest in the past decades. Integrating μPADs with acoustofluidic techniques provides great potential to overcome the inherent shortcomings and make appealing achievements. Here, we present acoustofluidics-assisted multifunctional paper-based analytical devices that leverage bulk acoustic waves to realize multiple applications on paper substrates, including uniform colorimetric detection, microparticle/cell enrichment, fluorescence amplification, homogeneous mixing, and nanomaterial synthesis. The glucose detection in the range of 5-15 mM was conducted to perform uniform colorimetric detection. Various types (brass powder, copper powder, diamond powder, and yeast cells) and sizes (5-200 μm) of solid particles and biological cells can be enriched on paper in a few seconds or minutes; thus, fluorescence amplification by 3 times was realized with the enrichment. The high-throughput and homogeneous mixing of two fluids can be achieved, and based on the mixing, nanomaterials (ZnO nanosheets) were synthesized on paper. We analyzed the underlying mechanisms of these applications in the devices, which are attributed to Faraday waves and Chladni patterns. With their simple fabrication and prominent effectiveness, the devices open up new possibilities for paper-based microfluidic devices.

Topics & Concepts

MicrofluidicsNanotechnologyNanomaterialsChemistryMixing (physics)HomogeneousFabricationMaterials scienceMedicinePhysicsAlternative medicineThermodynamicsQuantum mechanicsPathologyBiosensors and Analytical DetectionAdvanced biosensing and bioanalysis techniquesMicrofluidic and Bio-sensing Technologies
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