Commercialization of lab-on-a-chip devices is currently the “holy grail” within the μTAS
research community. While a wide variety of highly sophisticated chips which could …

Lab-on-PCB devices have been developed for many biomedical and biochemical
applications. However, much work has to be done towards commercial applications. Even …

In the context of an integrated Lab-on-PCB wearable patch extracting interstitial fluid from
the patient via integrated microneedles, the requirements from the integrated biosensing …

We report the development of a Lab-on-PCB DNA diagnostic platform, exploiting peptide
nucleic acid (PNA) sequences as probes. The study demonstrates the optimization and …

More than 783 million people worldwide are currently without access to clean and safe
water. Approximately 1 in 5 cases of mortality due to waterborne diseases involve children …

This paper reports a novel wireless control of a normally-closed piezoelectric microvalve
activated by a wireless inductor-capacitor (LC) resonant circuit, and enabled by an external …

The design and fabrication of a continuous-flow μPCR device with very short amplification
time and low power consumption are presented. Commercially available, 4-layer printed …

Point of Care (PoC) diagnostics have been the subject of considerable research over the
last few decades driven by the pressure to detect diseases quickly and effectively and …

Fabricating microfluidics directly onto a printed circuit board (PCB) is a promising method to
produce integrated systems. Here, we applied stereolithography (SLA) to 3D print …

This paper describes the fabrication opportunities that Printed Circuit Boards (PCBs) offer for
electronic and biomedical engineering. Historically, PCB substrates have been used to …