ASCII (American Standard Code for Information Interchange) is a widely used character encoding standard. It represents characters as decimal numbers, with each character assigned a unique code. The ASCII standard uses values ranging from 0 to 127 to represent a total of 128 characters.(more…)
The technology of solar energy has progressed dramatically in the last few decades, as it operates with increasing efficiency and at lower costs.
But the matter of how solar panels look remains an obstacle. Most photovoltaic panels are blue or black and cover large portions of buildings with a monotone hue. That might not jibe with your personal taste – or that of your homeowners’ association. It’s a limitation that has hindered the integration of solar energy into some commercial applications. In fact, architects and designers have long requested a wider choice of colors for solar cells to allow them to seamlessly blend into a building’s façade or an electronic system. (more…)
COLUMBUS, Ohio — A new form of clean coal technology reached an important milestone recently, with the successful operation of a research-scale combustion system at Ohio State University. The technology is now ready for testing at a larger scale.
For 203 continuous hours, the Ohio State combustion unit produced heat from coal while capturing 99 percent of the carbon dioxide produced in the reaction. (more…)
Why are efficient and affordable solar cells so highly coveted? Volume. The amount of solar energy lighting up Earth’s land mass every year is nearly 3,000 times the total amount of annual human energy use. But to compete with energy from fossil fuels, photovoltaic devices must convert sunlight to electricity with a certain measure of efficiency. For polymer-based organic photovoltaic cells, which are far less expensive to manufacture than silicon-based solar cells, scientists have long believed that the key to high efficiencies rests in the purity of the polymer/organic cell’s two domains – acceptor and donor. Now, however, an alternate and possibly easier route forward has been shown.
Working at Berkeley Lab’s Advanced Light Source (ALS), a premier source of X-ray and ultraviolet light beams for research, an international team of scientists found that for highly efficient polymer/organic photovoltaic cells, size matters. (more…)
ANN ARBOR, Mich.—Electrical engineers at the University of Michigan have built a device that can harness energy from vibrations and convert it to electricity with five to 10 times greater efficiency and power than other devices in its class. And it’s smaller than a penny.
“In a tiny amount of space, we’ve been able to make a device that generates more power for a given input than anything else out there on the market,” said Khalil Najafi, one of the system’s developers and chair of Electrical and Computer Engineering. (more…)