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Georgia Tech’s discovery and development of new and improved materials – those that revolutionize consumer electronics, for instance – lead to wide-ranging technological advances.
Materials scientists have developed a new strategy for crafting one-dimensional nanorods from a wide range of precursor materials.
Researchers have explained why platinum nanoclusters within a specific size range facilitate the hydrogenation reaction used to produce the chemical ethane from ethylene.
Advanced computer technologies speed development of real-world materials.
The LAMP System CPT6060 can be used to build highly complex and demanding ceramic cores and molds.
A carbon-based molecular sieve membrane could dramatically reduce the energy required to separate a class of hydrocarbon molecules.
Thermophotovoltaic technology could directly convert heat from solar thermal to electricity.
Soaking certain carbon fiber composites in alcohol enables the pieces to be recycled
A novel three-dimensional solar cell design will soon get its first testing in space aboard the International Space Station.
Engineered "sand" may offer the potential for improved cooling of electronic devices.
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