In a recent study, researchers developed a springtail-inspired omniphobic membrane using innovative biomimetic techniques. The membrane shows exceptional hydrophobicity and stability, promising improved water purification in membrane distillation applications.
In a recent study in Materials, researchers reviewed nanoscale metallic multilayers (NMMs) and their composites, exploring their unique properties and potential applications in advanced materials science.
In a recent article published in Light: Science & Applications, Chinese researchers developed a single-mode double-pulsed nanolaser using perovskite quantum wells, advancing optoelectronic device miniaturization.
In an article published in Gels, researchers developed a nanocomposite PFSA/Montmorillonite-Na+ polymer membrane to enhance supercapacitor performance, offering improved energy storage and stability.
In a recent article published in Molecules, researchers evaluated the synergistic effect of Aluminum Nitride (AlN) and Carbon Nanotubes (CNTs) on the properties of Silicon Rubber (SR) composites.
The aim of the study w...
The National Physical Laboratory (NPL) discovered that bending tungsten diselenide, instead of stretching it, induces localized emission in semiconductor 2D materials, offering new opportunities for quantum technologies; findings were published in Science and Technology of Advanced Materials.
The waveguide, a metal tube used to direct radio waves, is a critical component of satellites that enable communications. It is also one of the heaviest payloads that satellites transport into orbit.
Dong Ick Son (Department of Nanomaterials and Nano Science, University of Science and Technology, Republic of Korea); Institute of Advanced Composite Materials, Korea Institute of Science and Technology; and Donghee Park (Center for Opto-Electronic Materials and Devices, Post-Silicon Semiconductor Institute, Korea Institute of Science and Technology, Republic of Korea) are the research leaders for this initiative.
Rice University researchers discovered how 2D materials flow in liquid, potentially enabling scientists to create macroscopic-scale materials with similar properties.
Recently, a group at the Lawrence Berkeley National Laboratory of the US Department of Energy (DOE) has created a novel self-assembly technique for creating stacked 2D nanosheets as detailed in Nature.
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