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Melanin may power eco-friendly electronics

U. QUEENSLAND (AUS) — Melanin—the pigment that colors squid ink—may someday power a new generation of biologically friendly electronic devices.

The researchers say the potential applications include medical sensors and tissue stimulation treatments.

Led by Professor Paul Meredith and Associate Professor Ben Powell at the University of Queensland, an international team of scientists has published a study that offers new insight into the electrical properties of the pigment and its biologically compatible “bioelectronic” features.

“Semiconductors are arguably the most important modern day high-tech material—they drive all modern electronics,” says Meredith.

“The majority of semiconductors are made from inorganic elements or compounds such as silicon or gallium arsenide.”

Organic semiconductors, on the other hand, are a relatively new member of the semiconductor family and are composed of molecules containing carbon, hydrogen, and other elements.

“There are very few examples of natural organic semiconductors and melanin was thought to be the very first example, demonstrated to be such in the early 70s,” says Meredith.

Powell says that in semiconductors, such as those found in computers and mobile phones, electrons carry the electrical current. However, in biological systems, such as brains and muscles, ions carry the current.

“We’ve now found that in melanin, both electrons and ions play important roles,” he says.

The study—published recently in Proceedings of the National Academy of Sciences—points to a new way of interfacing conventional electronics to biological systems using a combination of ion-and-electron conducting biomaterials such as melanin.

“Melanin is able to ‘talk’ to both electronic and ionic control circuitry and hence can provide that connection role,” says Meredith about the study’s finding, the culmination of ten years of research and experiments.

“There are very few materials that meet these compatible bioelectronic requirements, and an insight into melanin’s important biological functions and properties has been really crucial in this study.”

In recent years, the electronics industry has been driven to develop materials and components that are cheaper and more environmentally friendly.

“There is a realization that in many such applications, we should move on from the relatively more expensive inorganic semiconductors. We need cheaper, safer electronic materials with greener credentials,” says Meredith.

“Organic conductors and semiconductors are widely viewed has having enormous potential in this regard, and in the area of medical sensors and devices, biocompatibility will be a key requirement.”

The team is currently working on creating ion-based electrical devices using melanin, with a view to ultimately connect them to actual biological systems.

“A critical area that one could foresee for bioelectronics is stimulating or repairing signal-carrying pathways in tissues such as muscle or brain,” says Meredith.

Additional researchers from University of Queensland contributed to the study, as well as researchers at Lancaster University, and institutions in the United Kingdom and Poland.

More news from University of Queensland: http://www.uq.edu.au/news/

chat4 Comments

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4 Comments

  1. r.

    amazing insights.

  2. Eco Friendly

    Great article! I’m helping others to learn to live more eco friendly. But of course the industy is a big part of the problem. Orgnic parts in electronic equipment sound very promising and very interesting. It may prove a step in the right direction.

    Thanks
    Greg

  3. Richard

    Its a blessing to be black. We are superconductors of all forms of energy.You should talk about us first before squid ink.

  4. Philloso

    In other words we are supercomputers and our skin is a valuable upgrade.

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