The research group headed by Professor In Soo-Il in the Department of Energy Engineering at DGIST has come up with a high-efficiency photocatalyst that has the potential to transform carbon dioxide (CO2), a significant contributor to global warming, into the energy resource methane.
Transition metals exchange electrons with supporting ligands to form complexes that facilitate reaction catalysis in several industries, like pharmaceutical production. Both the metal center and the ligand moiety have pivotal roles in enabling catalysis.
A high-tech invisible ink invented at Sandia National Laboratories could become the newest tool for stopping counterfeit goods. The research team is now seeking partnerships to help develop and ultimately commercialize the new technology.
Higher-order topological insulators are unusual materials that can support topologically protected states.
South Devon College bags ½ £million unprecedented opportunity to nurture the future of photonic semiconductors.
KemLab Inc., a pioneering developer of advanced materials for microelectronics and MEMS applications, introduces the patent pending APOL-LO 3200 Series resist, a groundbreaking advancement in negative tone photoresist technology designed for i-Line and broadband applications.
Metasurfaces, called invisibility cloak technology, are manipulable artificial materials. With metasurfaces enabling lenses to be lowered to one 10,000th the size of traditional lenses, they are producing a lot of interest as optical components for the next generation of virtual and augmented reality, as well as LiDAR.
Trace gas sensors are used in different fields. Light-induced thermoelastic spectroscopy (LITES) has extremely high sensitivity and offers non-contact measurement, attracting extensive research attention.
Bringing protons up to speed with strong laser pulses – this still young concept promises many advantages over conventional accelerators. For instance, it seems possible to build much more compact facilities.
The Lightwave Research Lab has developed a fast and extremely efficient method for transferring huge amounts of data. The technique uses dozens of frequencies of light to transfer several streams of information over a fiber optic cable simultaneously.
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