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An electrode network (branched pattern) and cyanobacteria (spiral pattern) were 3D printed on a mushroom to produce bio-electricity

A bionic mushroom that generates electricity


By —— Bio and Archives--November 28, 2018

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A bionic mushroom that generates electricity
In the quest to replace fossil fuels, scientists are always on the lookout for alternative, environmentally friendly sources of energy. But who could have imagined a bionic mushroom that produces electricity? It sounds like something straight out of Alice in Wonderland, but researchers have now generated mushrooms patterned with energy-producing bacteria and an electrode network. They report their results in the ACS journal Nano Letters.

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Bacterial Nanobionics via 3D Printing

Many examples of organisms that live closely together and interact with each other exist in nature. In some cases, this symbiotic relationship is mutually beneficial. A team of researchers led by Manu Mannoor and Sudeep Joshi from Stevens Institute of Technology wanted to engineer an artificial symbiosis between button mushrooms and cyanobacteria. In their scenario, the mushroom would provide shelter, moisture and nutrients, while bacteria 3D-printed on the mushroom’s cap would supply energy by photosynthesis. Graphene nanoribbons printed alongside the bacteria could capture electrons released by the microbes during photosynthesis, producing bio-electricity.

To make their bionic mushroom a reality, the researchers first 3D printed an electronic ink containing graphene nanoribbons onto the cap of a living mushroom in a branched pattern. They then printed a bio-ink containing cyanobacteria onto the cap in a spiral pattern, which intersected with the electronic ink at multiple points. At these sites, electrons could transfer through the outer membranes of the bacteria to the conductive network of graphene nanoribbons. Shining a light on the mushroom activated cyanobacterial photosynthesis, generating a current of about 65 nanoAmps. Although this current is insufficient to power an electronic device, the researchers say that an array of bionic mushrooms could generate enough current to light up an LED. The researchers are now working on ways to generate higher currents using this system. They say that this 3D-printing approach could be used to organize other bacterial species in complex arrangements to perform useful functions, such as bioluminescence. 

The authors do not acknowledge any funding sources.

Bacterial Nanobionics via 3D Printing


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American Chemical Society, ACS is a congressionally chartered independent membership organization which represents professionals at all degree levels and in all fields of chemistry and sciences that involve chemistry.


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