In a recent study, researchers developed high-temperature platinum thin-film resistance temperature detectors (RTDs) using Al2O3 transition layers on SiC substrates. The RTDs demonstrated excellent electrical performance up to 850°C, offering potential for integration with SiC pressure sensors.
Researchers at the Japan Advanced Institute of Science and Technology (JAIST) turned their attention to polymeric binders for the production of electrodes in Sodium-ion batteries (SIBs) to help improve the performance and stability of electrodes.
In a recent article, researchers developed a pathway for synthesizing stable 2D-like MgMoN2 thin films from a 3D disordered metastable intermediate, offering insights into fine-tuning quantum and semiconductor properties.
In a study published in the Journal of Advanced Ceramics on September 5th, 2024, Professor Xia Long from the Key Laboratory of Special Ceramic Design and Preparation at Harbin Institute of Technology (Weihai) proposed a conceptual framework based on reverse thinking, attempting to achieve a higher "return" with a minimum "sacrifice."
In a significant advancement in the field of surface engineering, Hiden Analytical is thrilled to introduce the High-Power Impulse Magnetron Sputtering (HiPIMS) technique – a cutting-edge method derived from the conventional magnetron sputtering process, designed to enhance the quality and durability of coated surfaces.
Flexcon Global has exclusively licensed two patented inventions to manufacture a self-healing barrier film from the Department of Energy's Oak Ridge National Laboratory for research and development purposes.
In an article published in Silicon, researchers detail the synthesis of Al/SiC cermet powders for use in polycarbosilane (PCS) composite coatings. These coatings effectively protect stainless steel from corrosion, showing excellent stability and adhesion even under extreme conditions.
In a recent study in npj Computational Materials, researchers used phonon funneling to boost thermal conductivity in semiconductor thin films, achieving a 7-fold increase through strategic placement of nano-heaters and nano-coolers.
In an article published in Materials, researchers used molecular dynamics simulations to study the temperature-dependent wear resistance of FeNiCrCoCu high entropy alloy coatings on a Cu matrix, revealing key insights into their structural behavior.
Argonne scientists designed a way to optimize discovery of nuclear material coatings and identified a promising new candidate along the way.
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