Carbon Nanotubes Used To Vastly Improved Solar Cells

 Solar Cells  

Researchers have discovered that the controlled placement of carbon nanotubes in nanostructures could result in a huge boost in electronic performance in photovoltaic solar cells.

Carbon nanotubes are becoming increasingly attractive for photovoltaic solar cells as a replacement to silicon. Researchers at Umeå University in Sweden have discovered that controlled placement of the carbon nanotubes into nano-structures produces a huge boost in electronic performance. Their groundbreaking results are published in the journal Advanced Materials.

"We have found that the resulting nano networks possess exceptional ability to transport charges, up to 100 million times higher than previously measured carbon nanotube random networks produced by conventional methods."

Carbon nanotubes, or CNTs, are one dimensional nanoscale cylinders made of carbon atoms that possess very unique properties.  For example, they have very high tensile strength and exceptional electron mobility, which make them very attractive for the next generation of organic and carbon-based electronic devices.

There is an increasing trend of using carbon based nanostructured materials as components in solar cells. Due to their exceptional properties, carbon nanotubes are expected to enhance the performance of current photovoltaic solar cells through efficient charge transport inside the device.

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In order to obtain the highest performance for electronic applications, the carbon nanotubes must be assembled into a well-ordered network of interconnecting nanotubes. Unfortunately, conventional methods used today are far from optimal which results in low device performance.

In a new study, a team of physicists and chemists at Umeå University have joined forces to produce nano-engineered carbon nanotubes networks with novel properties.

For the first time, the researchers show that carbon nanotubes can be engineered into complex network architectures, and with controlled nano-scale dimensions inside a polymer matrix.
 “We have found that the resulting nano networks possess exceptional ability to transport charges, up to 100 million times higher than previously measured carbon nanotube random networks produced by conventional methods,” says Dr David Barbero, leader of the project and assistant professor at the Department of Physics at Umeå University.

“This new architecture enables a higher degree of interconnection between nanotubes and more robust charge transport pathways in the device,” Barbero told KurzweilAI. “This is expected to increase device efficiency, but also to reduce materials costs because at least 100 times less nanotubes are necessary to form efficient charge transport networks.”

Barbero could not predict when this new technology might go into production, but hinted that “this field is moving fast and things can happen quickly, so stay tuned.”


SOURCE  Umeå University

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