Blood-, milk-, and mucus-powered electronics

Researchers at Tel Aviv University ([TAU] Israel) have already begun to develop biodegradable display screens in their quest to create electronic devices powered by blood, milk, and mucus proteins found in our bodies. From the March 7, 2012 news item on Nanowerk,

… a team including Ph.D. students Elad Mentovich and Netta Hendler of TAU’s Department of Chemistry and The Center for Nanoscience and Nanotechnology, with supervisor Dr. Shachar Richter and in collaboration with Prof. Michael Gozin and his Ph.D. student Bogdan Belgorodsky, has brought together cutting-edge techniques from multiple fields of science to create protein-based transistors — semi-conductors used to power electronic devices — from organic materials found in the human body. They could become the basis of a new generation of nano-sized technologies that are both flexible and biodegradable.

The March 7, 2012 news release on the American Friend of TAU website notes some of the issues with silicon-based electronics,

One of the challenges of using silicon as a semi-conductor is that a transistor must be created with a “top down” approach. Manufacturers start with a sheet of silicon and carve it into the shape that is needed, like carving a sculpture out of a rock. This method limits the capabilities of transistors when it comes to factors such as size and flexibility.

The TAU researchers turned to biology and chemistry for a different approach to building the ideal transistor. When they applied various combinations of blood, milk, and mucus proteins to any base material, the molecules self-assembled to create a semi-conducting film on a nano-scale. In the case of blood protein, for example, the film is approximately four nanometers high. The current technology in use now is 18 nanometers, says Mentovich.

Together, the three different kinds of proteins create a complete circuit with electronic and optical capabilities, each bringing something unique to the table. Blood protein has the ability to absorb oxygen, Mentovich says, which permits the “doping” of semi-conductors with specific chemicals in order to create specific technological properties. Milk proteins, known for their strength in difficult environments, form the fibers which are the building blocks of the transistors, while the mucosal proteins have the ability to keep red, green and, blue fluorescent dyes separate, together creating the white light emission that is necessary for advanced optics.

Overall, the natural abilities of each protein give the researchers “unique control” over the resulting organic transistor, allowing adjustments for conductivity, memory storage, and fluorescence among other characteristics.

I have previously featured work on vampire (blood-powered) fuel cells and batteries  in my July 18, 2012 posting and my April 3, 2009 posting so the notion of using blood (and presumably other bodily fluids) as a source for electrical power is generating (pun intended, weak though it is) interest in many research labs.

While the researchers don’t speculate about integrating these new carbon-based devices, which are smaller and more flexible than current devices, in bodies (from the American Friends of TAU news release),

Technology is now shifting from a silicon era to a carbon era, notes Mentovich, and this new type of transistor could play a big role. Transistors built from these proteins will be ideal for smaller, flexible devices that are made out of plastic rather than silicon, which exists in wafer form that would shatter like glass if bent. The breakthrough could lead to a new range of flexible technologies, such as screens, cell phones and tablets, biosensors, and microprocessor chips.

Just as significant, because the researchers are using natural proteins to build their transistor, the products they create will be biodegradable. It’s a far more environmentally friendly technology that addresses the growing problem of electronic waste, which is overflowing landfills worldwide.

The biodegradability of these proposed devices may be a problem if they are integrated into our bodies but it is certain that this will be attempted as we continue to explore machine/flesh possibilities.

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