Your search keyword '"Sparwasser, Kevin"' showing total 2 results

1. Catalytically Active Materials Visualized by Scanning Photoelectron Spectro-Microscopy.

Author

Amati, Matteo, Yashina, Lada V., Winkler, Philipp, Sparwasser, Kevin, Milosz, Zygmunt, Rupprechter, Günther, and Gregoratti, Luca

Subjects

X-ray photoelectron spectroscopy, HETEROGENEOUS catalysis, CATALYST supports, PHOTOEMISSION, PHOTOELECTRONS

Abstract

Modern catalysts are complex systems whose performance depends both on space and time domains and, most importantly, on the operational environment. As a direct consequence, understanding their functionalities requires sophisticated techniques and tools for measurement and simulation, addressing the proper spatial and temporal scale and being capable of mimicking the working conditions of every single component, such as catalyst supports, electrodes, electrolytes, as well as of the entire assembly, e.g., in the case of fuel cells or batteries. Scanning photoelectron spectro-microscopy (SPEM) is one of the approaches that allow combining X-ray photoelectron spectroscopy with sub-micron spatial resolution; in particular, the SPEM hosted at the ESCA Microscopy beamline at Elettra has been upgraded to conduct in situ and operando experiments. Three different case studies are presented to illustrate the capabilities of the SPEM in the investigation of catalytic materials in different conditions and processes. [ABSTRACT FROM AUTHOR]

Published

2024

2. Raman Spectroscopy Unfolds the Fate and Transformation of SWCNTs after Abrasive Wear of Epoxy Floor Coatings.

Author

Soto Beobide, Amaia, Bieri, Rudolf, Szakács, Zoltán, Sparwasser, Kevin, Kaitsa, Ioanna G., Georgiopoulos, Ilias, Andrikopoulos, Konstantinos S., Van Kerckhove, Gunther, and Voyiatzis, George A.

Subjects

FRETTING corrosion, NANOCOMPOSITE materials, CARBON nanotubes, STRAINS & stresses (Mechanics), COMPOSITE materials, EPOXY coatings, CONSUMER goods, RAMAN spectroscopy

Abstract

Nanomaterials are integrated within consumer products to enhance specific properties of interest. Their release throughout the lifecycle of nano-enabled products raises concerns; specifically, mechanical strains can lead to the generation of fragmented materials containing nanomaterials. We investigated the potential release of single-walled carbon nanotubes (SWCNTs—brand TUBALL™) from epoxy composite materials. A pin-on-disk-type tribometer was used for the accelerated mechanical aging of the nanocomposites. A pristine nanocomposite material, abraded material and debris obtained from the abrasion in the tribometer were analyzed by Raman spectroscopy. The airborne-produced particles were captured using particle collectors. Stat Peel's Identifier C2 system was used to monitor the SWCNT content of respirable particles produced during the abrasion test. The SWCNT amounts found were below the LoQ. The Raman spectra conducted on the Stat Peel filters helped identify the presence of free SWCNTs released from the epoxy matrix, although they were notably scarce. Raman spectroscopy has been proved to be a crucial technique for the identification, characterization and assessment of structural changes and degradation in SWCNTs that occurred during the abrasion experiments. [ABSTRACT FROM AUTHOR]

Published

2024