Dr. Jin Gu, Kang and his team at the Nanophotonics Research Center at the Korea Institute of Science and Technology (KIST) have developed a colorful radiation-cooling liquid crystal material that can cool without external power while simultaneously emitting color.
Materials science and engineering researchers at the University of Illinois Urbana-Champaign have found that the helical structure shows greatly enhanced conductivity compared to the "random coil" counterparts.
An international research team led by Prof. Dr Eva Blasco, a scientist at the Institute for Molecular Systems Engineering and Advanced Materials (IMSEAM) of Heidelberg University, has made successful use of the raw materials extracted from microalgae to manufacture inks for printing complex biocompatible 3D microstructures for the first time, according to a study published in Advanced Materials
Transition metal carbides (TMCs) and transition metal dichalcogenides (TMDs) are emerging as key players with transformative potential across various industries.
A discovery that uncovered the surprising way atoms arrange themselves and find their preferred neighbors in multi-principal element alloys (MPEA) could enable engineers to "tune" these unique and useful materials for enhanced performance in specific applications ranging from advanced power plants to aerospace technologies, according to the researchers who made the finding.
In a study published in Nature Communications, researchers from North Carolina State University developed a method to restore the properties of piezoelectric materials that enable state-of-the-art ultrasound and sonar technologies at room temperature, thereby making it easier to repair these devices and paving the way for new ultrasound technologies.
A novel flexible substrate material was created in a study by Thomas J. Wallin of MIT, Chen Wang of the University of Utah, and seven other researchers that was published in RSC: Applied Polymers. This material has the potential to allow for the scalable production of more complex multilayered circuits than can currently be made using existing substrates, as well as the recycling of materials and components when a device reaches the end of its useful life.
Argonne scientists designed a way to optimize discovery of nuclear material coatings and identified a promising new candidate along the way.
Scientists at Cavendish Laboratory have found two new approaches to enhance organic semiconductors in a new study that was published in Nature Materials.
In traditional Japanese basket-weaving, the ancient "Kagome" design seen in many handcrafted creations is characterized by a symmetrical pattern of interlaced triangles with shared corners.
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