University of Wisconsin-Madison

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2013

Xolve's graphene technology to change composite price/performance

Nanotechnology has long offered the promise of wonderful new materials and vast improvements in the essentials of modern life. To date, however, this technology has been accused of falling short of such potential. In spite of billions invested in nanomaterials research, no life-changing nano products have made their way to market.

Xolve, Inc

2012

The first all-carbon photovoltaic cell

The carbon-based cell is most effective at capturing sunlight in the near-infrared region. Because the material is transparent to visible light, such cells could be overlaid on conventional solar cells, creating a tandem device that could harness most of the energy of sunlight.

UWM discovery advances graphene-based electronics

Graphene, a one-atom-thick layer of carbon that resembles a flat sheet of chicken wire at nanoscale, has the potential to revolutionize electronics because it conducts electricity much better than the gold and copper wires used in current devices.

2011

Giant piezoelectric effect to improve energy harvesting devices

Researchers in the Department of Materials Science and Engineering and the Materials Research Institute at Penn State are part of a multidisciplinary team of researchers from universities and national laboratories across the U.S. who have fabricated piezoelectric thin films with record-setting properties.

Microfabrication breakthrough for piezoelectric material

Integrating a complex, single-crystal material with "giant" piezoelectric properties onto silicon, University of Wisconsin-Madison engineers and physicists can fabricate low-voltage, near-nanoscale electromechanical devices that could lead to improvements in high-resolution 3-D imaging, signal processing, communications, energy harvesting, sensing, and actuators for nanopositioning devices, among others.

Harvesting energy from respiration

In a recent paper US scientists from the University of Wisconsin-Madison described a device that converts air flow from human breath into electricity.

Reverse electrowetting could lead to energy harvesting shoes

If the vision of Tom Krupenkin and J. Ashley Taylor comes to fruition, one day soon your cellphone - or just about any other portable electronic device - could be powered by simply taking a walk.

2010

Solar funnel

Using carbon nanotubes (hollow tubes of carbon atoms), MIT chemical engineers have found a way to concentrate solar energy 100 times more than a regular photovoltaic cell.

Carbon nanotubes could soon form antennas that capture light energy

New antenna made of carbon nanotubes could make photovoltaic cells more efficient by concentrating solar energy.

2009

Carbon nanotubes may cheaply harvest sunlight

University of Wisconsin-Madison researchers are studying how to create inexpensive, efficient solar cells from carbon nanotubes, which are sheets of carbon rolled into seamless cylinders 1-nanometer in diameter.

2008

New method to measure how strain affects semiconductors developed

Chip firms are always looking to gain an edge over their competitors in a market worth over $100 billion a year and the one silicon strategy for faster chips that has proven to be cost effective in mass production is - strained silicon.