Flexible gold sensor promising for medical implants

Using a brand new engineering method, researchers at The University of Queensland’s (UQ) Australian Institute for Bioengineering and Nanotechnology (AIBN) have produced a small, film-like sensor that is both flexible and sensitive enough to enable a more streamlined future for electronic medical implants and real-time sensing applications.

The film-like sensor designed by Dr Mostafa Kamal Masud and PhD candidate Aditya Ashok represents a novel approach to the field of mesoporous materials, which are highly porous substances with traits that benefit diagnostics, catalysis and drug delivery. Described in the journal Small, the intricate approach used by Masud and Ashok suggests a new way to miniaturise and improve medical devices for diagnostics, biological sensing and neurological exploration.

“Although modern implanted electronics have developed rapidly over the past 60 years, most commercially available devices are still built on relatively similar — and limiting — design concepts such as thick ceramic or titanium packaging,” Masud said.

“We are offering a new route toward miniaturised, flexible, implanted medical devices that will diagnose and treat chronic diseases and help improve the lives of millions of people.”

Using a novel hybrid fabrication process under the guidance of Professor Yusuke Yamauchi, Masud and Ashok were able to synthesise a mesoporous gold film that acts as an electrode for biosensing and bioimplant applications. The flexibility and sensitivity of the gold film make it an ideal wearable system for real-time monitoring of body glucose, with strong potential for implanted nerve recording applications.

“The demand for a simple and robust fabrication process with this kind of flexible electronics is enormous,” Masud said.

“Our aim here is to see this sensor embedded in wearable devices — but the potential and possibilities in this field are vast. We’re going to be exploring more in our coming projects.”

Image caption: The film-like sensor designed by Masud and Ashok represents a novel approach to the field of mesoporous materials. Image courtesy AIBN.