Making a silicon semi-conductor involves carving a sheet of the element silicon, kind of like carving a sculpture out of rock. It’s the most common method of making transistors for everything from cellular phones to computers. But silicon is expensive, inflexible and environmentally problematic.
What if it were possible to make transistors from ordinary materials simply by coating them with readily available proteins — for instance, human blood, milk or mucus?
That may seem really yucky, but biologists and chemists from Tel Aviv University say this nanotechnology approach is a flexible, “green” and inexpensive way to power the next generation of electronic devices.
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Their research, published in the journals Nano Letters
and Advanced Materials
, received a silver award at the fall 2011 Materials Research Society Graduate Student Awards
Working with blood, milk and mucus proteins — which naturally self-assemble into a semi-conducting film — PhD students Elad Mentovich, Netta Hendler and Bogdan Belgorodsky succeeded in taking the first step toward biodegradable display screens, and they aim to use this method to develop entire electronic devices. A new era of technology
In combination, the three types of proteins create a complete circuit with electronic and optical capabilities, each bringing something unique to the table, Mentovich said.
Blood protein has the ability to absorb oxygen to ready the material; strong milk protein forms the fiber building blocks of the transistors; and mucosal proteins keep red, green and, blue fluorescent dyes separate, creating the “white light” emission necessary for advanced optics.
The natural abilities of each protein allow for control over the resulting organic transistor, allowing adjustments for conductivity, memory storage and fluorescence, among other characteristics.
According to Mentovich, technology is now shifting from a silicon era to a carbon era, and this new type of transistor could play a big role. Transistors built from animal proteins will be ideal for smaller, flexible devices made of plastic rather than silicon, which shatters like glass if bent. The breakthrough could lead to a new range of flexible computer screens, cell phones and tablets, biosensors and microprocessor chips.
Just as significant, the products will be biodegradable in answer to the growing problem of electronic waste overflowing landfills worldwide.