A team of researchers, including scientists at the Department of Energy's SLAC National Accelerator Laboratory, investigated a class of metal nanoparticles used as catalysts in major industrial processes. They found that adding a trace amount of platinum to copper nanoparticles greatly reduced an effect known as "sintering," which causes these catalysts to degrade over time.
Exum Instruments Inc. today announced the launch of next generation Massbox®, a significant advancement of its proprietary Laser Ablation Laser Ionization Time of Flight Mass Spectrometry (LALI-TOF-MS) platform.
The Donnelly Research Group at Heriot-Watt University (Edinburgh, UK) has published a compelling case study highlighting significant operational and scientific advantages when performing parallel inert chemistry using the DrySyn OCTO 8-position Reaction Station, a compact benchtop synthesis platform developed by Asynt.
Researchers at the Department of Energy's Oak Ridge National Laboratory have advanced the knowledge required to improve large-scale energy storage. In doing so, they have revealed distinct chemical reactions that improve the stability and efficiency of a promising energy-storage system.
Tadiran Batteries, the world’s leading manufacturer of industrial grade ultra-long-life lithium batteries, has just introduced TLM-1550SPM high-power AA-size lithium oxide batteries for use in critical applications.
In a historic event decades in the making, the Hanford Site recently began immobilizing low-activity, radioactive waste by converting it into glass: a process known as vitrification.
The Korea Research Institute of Standards and Science has created a critical materials technology that accelerates the commercialization of all-solid-state batteries (ASSBs)—next-generation batteries inherently designed to eliminate fire and explosion hazards.
Chemspec Europe, the leading cross-sector sourcing hub for fine and speciality chemicals has announced its return to Cologne on 6-7 May 2026.
Researchers first recognized antimony-119 (Sb-119) more than two decades ago as a potentially promising radioactive isotope for targeted cancer therapy. However, the lack of binding molecules has limited its medical use.
The study uncovers a key mechanism in the [1,2]-Wittig rearrangement, opening avenues for selective chemical reactions in pharmaceutical applications.
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