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Pipetting Samples

Research 

Research Directions & Initiatives

Our lab is dedicated to the advancement of wearable bioelectronics, pioneering the development of wearable devices that seamlessly integrate with the human body to monitor and interact with vital physiological processes. Our research harnesses the power of flexible electronics, bio-sensors, and data analytics to create state-of-the-art wearables that can track health metrics, deliver therapeutic interventions, and improve overall well-being. 

Fig.1 tissue electronics.png

In our lab we aim to be at the forefront of on-chip diagnostics, and to pioneer the development of compact and highly efficient diagnostic platforms for a wide range of applications. Our research leverages microfluidics, biosensors, and advanced nanomaterials to create innovative on-chip systems capable of rapidly detecting diseases, and biomarkers with unparalleled precision.

Fig.2 tissue electronics.png

Our lab is dedicated to the advancement of wearable bioelectronics, pioneering the development of wearable devices that seamlessly integrate with the human body to monitor and interact with vital physiological processes. Our research harnesses the power of flexible electronics, bio-sensors, and data analytics to create state-of-the-art wearables that can track health metrics, deliver therapeutic interventions, and improve overall well-being.

Fig.3 tissue electronics.png
Pipetting Samples and Test Tube
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