Laser beams can be used to change the properties of materials in an extremely precise way. This principle is already widely used in technologies such as rewritable DVDs. However, the underlying processes generally take place at such unimaginably fast speeds and at such a small scale that they have so far eluded direct observation.
New dibenzophenazine-based liquid crystals synthesized and studied by a professor from RUDN University together with his Indian collaborators could be utilized in solar panels and optoelectronics.
Among the group of materials called perovskites, one of the most fascinating is a material that is capable of changing solar light to electricity as efficiently as present-day silicon solar cells available in the market.
In a breakthrough achievement that needs cutting-edge technology, perseverance, and a great deal of caution, researchers have effectively utilized powerful X-rays to investigate irradiated nuclear fuel.
Researchers at the Joint Institute for High Temperatures Russian Academy of Sciences (JIHT RAS) and Moscow Institute of Physics and Technology (MIPT) have experimentally validated the existence of an intermediate phase between the liquid and crystalline states in a monolayer dusty plasma system.
According to some people, future wars will be fought over water, and a billion individuals throughout the world are already grappling to find sufficient water to survive.
According to Penn State engineers, range anxiety, or the anxiety of running out of power before an electric vehicle can be recharged, might be completely overcome with novel lithium iron phosphate batteries that have a range of 250 miles with the potential to charge in 10 minutes.
Different glass materials have played a vital role in the growth of modern civilization because of their beneficial properties. Particularly, glasses exhibit a liquid-like disorganized structure but solid-like mechanical properties.
Researchers from Tomsk Polytechnic University (TPU) together with collaborators from the University of Lille (Lille, France) have synthesized a new material with reduced graphene oxide (rGO) for energy storage devices and supercapacitors.
In groundbreaking materials research, a team led by University of Minnesota Professor K. Andre Mkhoyan has made a discovery that blends the best of two sought-after qualities for touchscreens and smart windows--transparency and conductivity.
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