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 ...

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 ...

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) ...

Synchronizing periodic excitations of photocatalysts with a Michelson interferometer on operando FT-IR spectroscopy, researchers succeeded in observing and identifying the reactive electron species ...

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 ...

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 ...

Carlos was a visiting PhD student in the Spring 2023 semester, joining us from the Hatzell group in Georgia Tech. He will mainly be working with our operando spectroscopy techniques to study processes ...

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 ...

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 ...