Golde
Project Overview
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About
This innovative hydrogel addresses the need for sustainable and effective wearable electronics. Made from natural biopolymers, it is a stretchable, transparent, and skin-friendly material used as an adhesive interface or standalone sensor. Its high-quality signal acquisition surpasses commercial electrodes, and its biodegradability reduces environmental impact. Easy to produce with a simple one-pot method, this hydrogel can be customised for various biomedical applications through reversible 3D printing, offering versatility and a minimal ecological footprint
Team
Nazmi Alsaafeen
Khalifa University
I am a biomedical engineer who is passionate about creating disruptive healthcare solutions that serve people’s needs while being mindful of the environment. My innovations have attracted industrial interest and secured my participation in global exhibitions such as Arab Health and has earned awards in global competitions worldwide. Currently, as a PhD student at Khalifa University, my research interests are focused on sustainable green bioelectronic solutions for healthcare wearables and environmental sensing applications, ultimately bridging the gap between biology and technology without adversely impacting the environment. I adopt an empathy-driven, interdisciplinary and cross-collaborative approach in creating novel solutions.
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