What are the primary challenges associated with using spectroscopy to study industrial catalytic reactors, and how does the iso-potential operando DRIFTS technique overcome these challenges? Using ...

Schematic of electrochemical interface under acidic 0.1 M HClO4 electrolyte (A) and alkaline 0.1 M KOH electrolyte (B) during water oxidation at ~1.5 VRHE. Osaka, Japan – Iridium oxide catalysts are ...

Surface-enhanced Raman spectroscopy (SERS), discovered in the mid-1970s, marked a milestone in the history of surface and interface analysis. Over the past half-century, electrochemical SERS (EC-SERS) ...

For understanding the structure and function of catalysts in action, researchers have developed a new diagnostic tool. Operando X-ray spectroscopy visualizes the structure and gradients of complex ...

This article discusses the application of Raman spectroscopy in electrolysis research to understand the electrode-potential induced redox-state changes in catalyst materials, detect surface-bound ...

From laundry detergents and self-cleaning ovens to the manufacturing of fuels, plastics and medications, catalysts play a vital role in everyday products and industry. These substances, which make ...

Traditional oxygen-ion–conducting cells require high operating temperatures, creating cost, durability, and material compatibility challenges. Protonic ceramic cells (PCCs) offer an alternative, ...

Decades of research on electrochemical CO 2 reduction has brought the science to the cusp of the commercialization, with specialty chemicals already in industrial production. Our group's research uses ...

Schematic of electrochemical interface under acidic 0.1 M HClO 4 electrolyte (A) and alkaline 0.1 M KOH electrolyte (B) during water oxidation at ~1.5 VRHE. Credit: Journal of the American Chemical ...