Just don't bug me

I’m here today to stand up for the rights of bugs everywhere. From an early age, I have been a voice in the dark for insects you mainly see in the light. I’m talking about the good guys: crickets, lady bugs, and my favorite, the praying mantis –– those guys that don’t cause you pain or eat your garden plants. I have been known to lovingly pick up a cricket from our family room carpet in a tissue (to my wife’s horror) and carefully carry it outside to a safe haven. They hurt nobody and to my thinking deserve a break.

But when it comes to the other ones –– mosquitoes, flies and stinkbugs in particular –– I’m not Mr. Nice Guy. Armed with our battery-operated, tennis racquet-shaped zapper, I will dispatch these pests when they dare to encroach upon our backyard deck let alone enter the sanctity of our home. Why, just the other day, in an office building, I quickly disposed of a cockroach that was sitting comfortably on a hall carpet.

Now, however, after reading this week’s ACS PressPac, I’m having some second thoughts about my deed. It seems cockroaches are not just dirty, useless pests…

Scientists have developed and implanted into a living insect — the False Death's Head Cockroach — a miniature fuel cell that converts naturally occurring sugar in the insect and oxygen from the air into electricity. They term it an advance toward a source of electricity that could, in principle, be collected, stored and used to power sensors, cameras, microphones and a variety of other microdevices attached to the insects in a paper in the Journal of the American Chemical Society.

Daniel Scherson and colleagues explain that scientists are developing ways to generate electricity from chemicals inside living things or from their movements to power implanted sensors or other miniature devices. Such devices could provide researchers or physicians with important information about processes going on inside insects, animals or even people without the need for batteries. |

They also could someday power artificial organs, nanorobots or wearable personal electronics. But before such “sci-fi”-sounding advances can be realized, practical biofuel cells are necessary. That’s why Scherson and colleagues developed an implantable biofuel cell for use in a live cockroach.

The biofuel cell uses a sugar in the cockroaches’ bodies called trehalose and oxygen from the air to generate electricity. It did not kill the insects or impair functioning of their internal organs. They also implanted the device into a Shiitake mushroom, and it worked. Neither fuel cell — in the roach or the mushroom — produced a large amount of energy, so the team says that any microdevice that requires high power could operate only intermittently. The electricity generated by the biofuel cell, “in principle, could be collected and stored and subsequently used to power a variety of microdevices,” say the researchers.

To read more about this amazing development, go to http://bit.ly/xbEHvM.
 
 
 
Image: American Chemical Society


 

The American Chemical Society's Office of Public Affairs' new pressroom blog highlights prominent research from ACS' 41 journals. It includes daily commentary on the latest news from ACS' weekly PressPac, including video and audio segments from researchers on topics covering chemistry and related sciences. The blog also covers updates on ACS' awards, the national meetings and other general news from the world's largest scientific society.

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