News

ISS received the first light on 10.07.2025. After that, the endstation has been reconnected and aligned. During the shutdown period, the ScientaOmicron R4000 HiPP-2 analyser has undergone maintenance and upgrade. It features now a new detector (new MCP and 70 Hz camera) and ethernet communication.

First in-house and pilot users have measured in November and December 2025. A first official call for proposals will open in February 2026 (deadline March 16^th 2026, beamtime periods scheduled from September to December 2026). Please contact Dr. Luca Artiglia for more information.  

The pentafluorophenyl cation (C₆F₅⁺) breaks these rules with a borderline “crazy” reactivity.

By combining in situ XPS measurements carried out at ISS with theoretical calculations, reactivity/kinetics tests and high resolution electron microscopy, it was demonstrated that the reactivity of a Pt/CeO₂ towards the low temperature water gas shift reaction is boosted on small platinum clusters originated by sintering of atomically dispersed species. A comprehensive model allowed to determine the most active sites, which are corner sites at the perimeter between platinum and ceria. 

Researchers at the Center for Life Sciences and the Center for Scientific Computing, Theory, and Data at the Paul Scherrer Institute have identified the mechanism by which certain natural compounds interfere with cellular signaling. These ‘molecular glues’ have a therapeutic potential for the treatment of specific cancer types. Their latest study on this topic has been published in the journal Proceedings of the National Academy of Sciences of the United States of America.

Epitaxially grown thin films are commonly used to strain engineer electronic properties by the choice of a substrate, and therefore do not match bulk properties (leading to properties that deviate from the bulk material). Free standing ultrathin oxide films are expected to preserve the bulk-like properties due to the absence of substrate influence. However,  we show that this expectation is not fulfilled with ultrathin free standing SrTiO₃, as they get ferroelectric at 80K.

Nanometre‑thin, free‑flowing liquid sheets now let Swiss Light Source users record pristine VUV absorption spectra of water, and soon any solvent.

In situ XPS is an extremely powerful method to identify reaction intermediates formed at the solid-gas interface under reactive environments. In this work, an model silver surface catalyst (silver foil) was investigated upon exposure to ethylene and oxygen at increasing temperature. High resolution Ag 3d and O 1s spectra combined with theoretical calculations of core-electron binding energies allowed identifying oxygen reaction intermediates that selectively oxidize ethylene to ethylene oxide. A frequency selective method based on Fourier transform was developed and used to process time-resolved data acquired under modulation excitation conditions. This further demonstratred that the topmost oxygen atom of di-oxygen adsorbed on silver, which was previously identified as electrophylic oxygen,  is the most active and selective intermediate.