Innovative method converts persistent PFAS into valuable fluorine-enhanced NHCs, revolutionizing chemistry and materials science.
Latest in Materials Science
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Materials ScienceMetamaterialsMITPhysicsSciTech News
Pioneering Advanced Materials Through Laser Technology: A Leap in Metamaterial Testing
Innovative MIT method uses lasers to test metamaterials, aiding advancements in technology and materials science.
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2D MaterialsMaterials ScienceMetamaterialsNanomaterialsPenn State UniversityPhotonicsPhysicsSciTech NewsTechnologyUniversities
Transforming Reality: Novel Materials Through Twisted Atomic Layers Enhance Technological Advancements
Led by Bo Zhen from the School of Arts & Sciences, a team of researchers has innovatively created materials by…
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Materials SciencePhysicsSciTech News
Pioneering Advances in Material Science: Establishing a New Benchmark in Computational Codes
by Amir Husseinby Amir HusseinSummary of a Nature Review Physics article on a major advancement in validating DFT codes for material science, featuring a …
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CrystalsMaterials ScienceMITPhysicsSciTech NewsSuperconductivity
Unlocking Superconductivity: MIT Physicists Trap Electrons in a 3D Crystal for the First Time
MIT physicists create a 3D crystal trapping electrons in a flat band, mirroring ‘kagome’ art, a potential leap for superconductivity …
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2D MaterialsGrapheneMaterials ScienceMITNanotechnologyPhysicsSciTech News
MIT Physicists Convert Graphite to a Form with Electronic “Gold” Qualities
MIT team converts graphite to exhibit new insulating, magnetic, and topological traits, redefining materials physics with nanotechnology.
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Materials ScienceMITPhysicsSciTech News
FibeRobo by MIT: A Breakthrough in Morphable Textiles
by Amir Husseinby Amir HusseinRevolutionary FibeRobo fiber by MIT alters fabric properties with temperature, promising adaptive textiles for diverse applications.
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Chemical EngineeringMaterials SciencePhysicsPlasticSciTech NewsUniversity Of Tokyo
Enhanced Self-Repairing Plastic Invented by Tokyo Researchers
Tokyo scientists create VPR, a strong, heat-healable, and partly biodegradable plastic, potentially revolutionizing recycling and waste reduction.
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CeramicEngineeringMaterials SciencePhysicsSciTech NewsTechnologyUCSD
Advancements in Ceramic Material Science—Enhanced Toughness through Valence Electron Manipulation
Researchers from the University of California San Diego have developed a method to significantly enhance the toughness and crack-resistance of …
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Harvard UniversityMaterials SciencePhysicsSciTech NewsSuperhydrophobicWater
Long-lasting Underwater Superhydrophobic Surfaces Inspired by the Argyroneta Aquatica Spider
by Manuel Costaby Manuel CostaThis article discusses a groundbreaking study where researchers have engineered a superhydrophobic surface inspired by the Argyroneta aquatica spider. The …