A pathway to more effective and efficient synthesis of pharmaceuticals and other flow-reactor chemical products has been opened by a study in which, for the first time, the catalytic reactivity inside a microreactor was mapped in high resolution from start to finish. Read more »
ALS Gives Chevron Scientists New Insights into Corrosion Resistance
In the chemical environments common in energy production plants, steel pipes and equipment can accumulate layers of iron sulfide, some of which are corrosion resistant and provide protection to the steel surface. Understanding how operating conditions affect steel surface layers can improve corrosion rate estimates, decreasing building and maintenance costs, and increasing the safety and reliability of operating plants. Chevron Energy Technology Company (Chevron ETC) is currently studying the link between operating conditions and corrosion properties at ALS to determine which corrosion layers form and in what order.
Chemistry of Cobalt-Platinum Nanocatalysts
Bimetallic cobalt-platinum (CoPt) nanoparticles are drawing attention in many areas of catalysis as scientists tackle the quest to reduce precious metal content while maintaining optimum catalytic selectivity and reactivity. Researchers explored the role of Pt in Co reducing and oxidizing, and found that the catalytic properties of monometallic and bimetallic nanoparticles of Co are closely related to the oxidation state of Co. Read more »
Two Electron Holes in Hematite Facilitate Water Splitting
Hematite is a promising electrode material for solar-powered water splitting—an important reqirement for producing hydrogen fuel with zero emissions. At Beamline 7.0.1, researchers have gained a better understanding of hematite’s electronic structure through soft x-ray spectroscopy performed in situ and “operando.” Read more »
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