Exciting news for the world of bioelectronics and critical sensors as a new, time-saving technique for fast prototyping of devices is unveiled, accelerating the pace of innovation in this field.
Professor Anna Herland, an expert in Micro- and Nanosystems at KTH, highlights the significance of printing polymers as a crucial step in developing innovative electrochemical transistors for medical implants, wearable electronics, and biosensors.
This groundbreaking technique eliminates the need for costly cleanroom environments and harmful solvents and developer baths, as emphasized by Erica Zeglio, a researcher at Digital Futures, a collaborative research center of KTH Royal Institute of Technology and Stockholm University.
“The method we proposed here offers a sustainable alternative to the expensive and unsustainable cleanroom practices currently in use,” Zeglio explains.
Polymers play a vital role in various bioelectronic and flexible electronic devices, with applications ranging from monitoring living tissues and cells to diagnosing diseases through point-of-care testing.
2024-02-27 02:00:05
Source from phys.org