See-through sensors, which have been developed by a team of UW-Madison engineers, should help neural researchers better view brain activity.
Credit: Justin Williams’ Research Group

A team of engineers at the University of Wisconsin-Madison have developed invisible implantable medical sensor array, which will help neural researchers better view and understand brain activity.

This from the University of Wisconsin-Madison:

Neural researchers study, monitor or stimulate the brain using imaging techniques in conjunction with implantable sensors that allow them to continuously capture and associate fleeting brain signals with the brain activity they can see. However, it’s difficult to see brain activity when there are sensors blocking the view.

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The development of the see-through sensor will help overcome this major technological hurdle.

“One of the holy grails of neural implant technology is that we’d really like to have an implant device that doesn’t interfere with any of the traditional imagining diagnostics,” says Justin Williams, a professor of biomedical engineering and neurological surgery at UW-Madison. “A traditional implant looks like a square of dots, and you can’t see anything under it. We wanted to make a transparent electronic device.”

The research is published in the October 20 issue of the online journal Nature Communications.

The team developed the sensor using graphene due to its versatility and biocompatibility, thus making the device incredibly flexible and transparent because the electronic circuit elements are only four atoms thick.

Sensor science and technology is growing rapidly in response to an ever-increasing demand for faster, cheaper, smaller, and more sensitive means to monitor the chemical, biological, and physical world around us. Make sure you stay up-to-date with the latest research in this exciting field through our Digital Library.

The solar harvesting system uses small organic molecules developed by Lunt and his team to absorb specific nonvisible wavelengths of sunlight.
Credit: Yimu Zhao

A team of researchers at Michigan State University has developed a new type of solar concentrator that can harvest energy when placed over a window without blocking the view.

The new development is called the transparent luminescent solar concentrator and it has the potential to be used on buildings, cell phones, and any other device that has a flat, clear surface.

This from Science Daily:

Research in the production of energy from solar cells placed around luminescent plastic-like materials is not new. These past efforts, however, have yielded poor results – the energy production was inefficient and the materials were highly colored.

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The transparent luminescent solar concentrator is still in the beginning of its development – yielding a solar conversion efficiency just close to one percent. However, Richard Lunt of MSU’s College of Engineering believes the concentrator will reach efficiencies beyond five percent when fully optimized.

“It opens a lot of area to deploy solar energy in a non-intrusive way,” Lunt said. “It can be used on tall buildings with lots of windows or any kind of mobile device that demands high aesthetic quality like a phone or e-reader. Ultimately we want to make solar harvesting surfaces that you do not even know are there.”

ECS will have a symposium at the upcoming meeting in Cancun dealing with solar fuels and the utilization of solar energy. Find out more about the meeting and sign-up for early bird registration today!