Nanoglues stabilize metal atoms for catalysis
This work provides a new strategy to boost both catalytic activity and stability.
Oct 28th, 2022
Read moreThis work provides a new strategy to boost both catalytic activity and stability.
Oct 28th, 2022
Read moreResearchers report the preparation of MXene nanosheets with nanoscale ion-channels by chemical oxidation method, which retains the excellent mechanical properties and electrical conductivity of large-sized MXene nanosheets, and effectively shortens the transmission paths of ions with greatly improved electrochemical energy storage capacity.
Oct 27th, 2022
Read moreThis new book describes the recent advancements in synthesis and applications of nanomaterials in energy harvesting and storage, and also technology in the field of opto-electronics for next generation devices.
Oct 27th, 2022
Read moreResearchers have developed a flexible, thin film microelectromechanical system-based airflow sensor that can be utilized to measure complex, three-dimensional flow separation in curved walls for high-speed airflows.
Oct 27th, 2022
Read moreStudy shows that merging a topological insulator with a monolayer superconductor could support theorized topological superconductivity.
Oct 27th, 2022
Read moreIn the 1900s it was discovered that ceramic materials, at least in principle, can be permanently deformed without fracture at room temperature. Since then, materials researchers have dreamed of making ceramics that can be bent, pulled, and hammered without fracture.
Oct 27th, 2022
Read moreCerium dioxide nanoparticles work in biological processes like natural enzymes and change signaling molecules, thereby preventing the formation of biofilms.
Oct 27th, 2022
Read moreResearchers use nanoparticles to deliver a bacterially derived compound that targets the STING pathway to suppress tumor growth and metastasis by disrupting blood vessels and stimulating immune response.
Oct 27th, 2022
Read morePhysicists have found that a novel metallic crystal displays unusual electronic behaviour on its surface, thanks to the crystal's unique atomic structure. Their findings open up the possibility of using this material to develop faster and smaller microelectronic devices.
Oct 27th, 2022
Read moreResearchers theorize a new way to design triboelectric nanogenerators with a constant inherent capacitance.
Oct 27th, 2022
Read moreNew research finds evidence of waveguiding in a unique quantum material. Their findings counter expectations about how metals conduct light and may push imaging beyond optical diffraction limits.
Oct 27th, 2022
Read moreResearchers have demonstrated unprecedented control of a one-dimensional flow of electrons in a rare quantum state that physicists have sought to understand for over half a century. The technique suggests a path to more-robust and more-accurate quantum computers.
Oct 27th, 2022
Read moreScientists present an exciting overview of the emerging field of 2D ferroelectric materials with layered van-der-Waals crystal structures: a novel class of low-dimensional materials that is highly interesting for future nanoelectronics.
Oct 27th, 2022
Read moreA 3D-printed device in a tank of water braids nanowires and moves microparticles.
Oct 26th, 2022
Read moreResearchers develop a technique for precisely arranging nanoscale particles on a surface, such as a silicon chip, that doesn't damage the material.
Oct 26th, 2022
Read moreMethod for preparing open-framework colloidal crystals leads to synthesis of 12 novel nanoparticle superlattices.
Oct 26th, 2022
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