High-throughput microbead assay system with a portable, cost-effective Wi-Fi imaging module, and disposable multi-layered microfluidic cartridges for virus and microparticle detection, and tracking

Abstract: In recent years biomedical scientific community has been working towards the development of high-throughput devices that allow a reliable, rapid and parallel detection of several strains of virus or microparticles simultaneously. One of the complexities of this problem lies on the rapid prototyping of new devices and wireless rapid detection of small particles and virus alike. By reducing the complexity of microfluidics microfabrication and using economic materials along with makerspace tools (Kundu et al. … Show more

“…This microfluidic device was manufactured using microwave-induced thermal-assisted bonding in a simple, low-cost, and fast manner . In addition, a wireless, standalone device and disposable microfluidics device based on electric and nonelectric microsphere detection enabled rapid parallel readings of selected virus variants . This system can economically, disposably, and simultaneously detect up to six different viruses, particles, or variants in a single test and collect data using commercially available Wi-Fi-enabled camera-integrated devices.…”

Recent Advances in Microfluidics for the Early Detection of Plant Diseases in Vegetables, Fruits, and Grains Caused by Bacteria, Fungi, and Viruses

“…This microfluidic device was manufactured using microwave-induced thermal-assisted bonding in a simple, low-cost, and fast manner . In addition, a wireless, standalone device and disposable microfluidics device based on electric and nonelectric microsphere detection enabled rapid parallel readings of selected virus variants . This system can economically, disposably, and simultaneously detect up to six different viruses, particles, or variants in a single test and collect data using commercially available Wi-Fi-enabled camera-integrated devices.…”

Recent Advances in Microfluidics for the Early Detection of Plant Diseases in Vegetables, Fruits, and Grains Caused by Bacteria, Fungi, and Viruses

Microfluidic Biosensor for the In Vitro Electrophysiological Characterization of Actin Bundles

Handheld, Biomimetic, Phase-Change Microsystems for Breath Condensate-Based Point-of-Use Diagnostic Assays