Forschung zu Covid-19

Am PSI widmen sich mehrere Projekte wichtigen Forschungsfragen rund um das Coronavirus Sars-CoV-2 und den daraus resultierenden Erkrankungen. Wir informieren über Aktivitäten und Vorhaben, zum Beispiel zu Untersuchungen von Lungengewebe, zur Produktion von Proteinen und Antikörpern oder über Ideen für neue Forschung zu Covid-19.

Nützliche Links

GDW-Cup

GDW-Cup Polymechanikerinnen und Polymechaniker

Polymechanikerinnen  und Polymechaniker auf die Probe gestellt.

 

Connect Programm

Informationsveranstaltung zu Karriereförderungsprogramme

Willst du dich über Karriereförderungsprogramme wie das CONNECT für Wissenschaftlerinnen an Schweizer Universitäten informieren? Dann nimm an der hybriden Infoveranstaltung am 31. Mai 2023 teil!

Meilenstein_QV 2023

Meilenstein - QV-Praktische Arbeit

«Aus alt mach neu», das sind die schönen Seiten in unserem Beruf in der Gebäudereinigung.

 

Zhong et al

Nodeless electron pairing in CsV3Sb5-derived kagome superconductors

The newly discovered kagome superconductors represent a promising platform for investigating the interplay between band topology, electronic order and lattice geometry. Despite extensive research efforts on this system, the nature of the superconducting ground state remains elusive. In particular, consensus on the electron pairing symmetry has not been achieved so far, in part owing to the lack of a momentum-resolved measurement of the superconducting gap structure. Here we report ...

 

Sen_highlight

Ultrafast structural changes direct the first molecular events of vision

The visual pigment rhodopsin plays a critical role in the process of low-light vision in vertebrates. It is present in the disk membranes of rod cells in the retina and is responsible for transforming the absorption of light into a physiological signal. Rhodopsin has a unique structure that consists of seven transmembrane (TM) α-helices with an 11-cis retinal chromophore covalently bound to the Lysine sidechain of 7th TM helix. A negatively charged amino acid (glutamate) forms a salt bridge with the protonated Schiff base (PSB) of the chromophore to stabilize the receptor in the resting state.

Rhodopsin transforms the absorption of light into a physiological signal through conformational changes that activate the intracellular G protein transducin—a member of the Gi/o/t family—initiating a signaling cascade, resulting in electrical impulses sent to the brain and ultimately leading to visual perception. Although previous studies have provided valuable insights into the mechanism of signal transduction in rhodopsin, methods that provide both a high spatial and temporal resolution are necessary to fully understand the activation mechanism at the atomic scale from femtoseconds to milliseconds. This study presents the first experimentally-derived picture of the rhodopsin activation mechanism at the atomic scale using time-resolved serial femtosecond crystallography in association with hybrid quantum mechanics/molecular mechanics (QM/MM) simulations. The results show that light-induced structural changes in rhodopsin occur on a timescale of hundreds of femtoseconds, and they reveal new details about the conformational changes that occur during activation.

Ortiz et al 2

Quantum disordered ground state in the triangular-lattice magnet NaRuO2

It has long been hoped that spin liquid states might be observed in materials that realize the triangular-lattice Hubbard model. However, weak spin–orbit coupling and other small perturbations often induce conventional spin freezing or magnetic ordering. Sufficiently strong spin–orbit coupling, however, can renormalize the electronic wavefunction and induce anisotropic exchange interactions that promote magnetic frustration.

 

Teixeira et al

Active learning-assisted neutron spectroscopy with log-Gaussian processes

Neutron scattering experiments at three-axes spectrometers (TAS) investigate magnetic and lattice excitations by measuring intensity distributions to understand the origins of materials properties. The high demand and limited availability of beam time for TAS experiments however raise the natural question whether we can improve their efficiency and make better use of the experimenter’s time. 

sdu_2

SDU: Software for high throughput automated data collection at SLS MX

The Smart Digital User (SDU) software for unattended data collection has been deployed at the macromolecular crystallography beamlines at the Swiss Light Source. 

Peydayesh et al

Amyloid-polysaccharide interfacial coacervates as therapeutic materials

Coacervation via liquid-liquid phase separation provides an excellent oppor- tunity to address the challenges of designing nanostructured biomaterials with multiple functionalities. Protein-polysaccharide coacervates, in particular, offer an appealing strategy to target biomaterial scaffolds, but these systems suffer from the low mechanical and chemical stabilities of protein-based condensates. Here we overcome these limitations by transforming native proteins into amyloid fibrils and demonstrate ...

A snapshot from MD simulation of Na-montmorillonite, at variable interlayer nanopore distances. Oxygen atoms are red. Hydrogen atoms are white. Silica atoms are yellow. Aluminium atoms are green. Magnesium atoms are black. Sodium atoms are blue. Carbon atom of Methane is pink and Hydrogen atom of Methane are light green.

Mobility of Dissolved Gases in Smectite under Saturated Conditions

Mobility of water, sodium and gas molecules within a smectite nanopore

Various gases are produced by metal corrosion and organic material degradation in deep gelological repository for nuclear waste. To ensure repository safety, it's important to demonstrate that gases can be dissipated by diffusion in host rocks and prevent pressure buildup in repository near field. Smectite mineral particles form a pore network that is usually saturated with water, making gas diffusion the primary transport mechanism. Molecular simulations have shown that the diffusion of gases through the pore network depends on various factors, including pore size and temperature. For instance, smaller pores and lower temperatures tend to reduce gas diffusion. Interestingly, hydrogen and helium have been found to diffuse faster than argon, carbon dioxide, and methane, possibly due to interactions with the clay surface and water molecules. Ultimately, the diffusion coefficients for different gases and pore sizes can be predicted using an empirical relationship, which is useful for macroscopic simulations of gas transport.

Hercules 20223

The Hercules School visits PSI

20 international students visited PSI as part of the renowned Hercules School to learn about our state-of-the-art techniques and methodologies at our large scale facilities.

Mobiltool

Latest Version of "Mobiltool" Released

How do you get from A to B in the most environmentally friendly way? This question can now be answered quite easily with the latest version of the "mobitool". Read the article to learn more.

Elina Giuliana

Foto-Künstlerin Elina Giuliana

Fotografie bedeutet, in die Welt einzutauchen, wo Einzigartigkeit im Mittelpunkt steht.

 

Lernwerkstatt Olten 2023

Berufsbildungs-Event Olten 2023

Die Reise nach Olten hat sich gelohnt!

Mu3e Wengen 2023: HiMB Presentation

Mu3e Collaboration Workshop in Wengen

The Mu3e Collaboration met for four days in Wengen in the Bernese Alps for an intense workshop. We discussed finalizing, commissioning and calibrating the first phase of the Mu3e experiment. A lot of space was also given to developments needed for the second phase of the experiment at higher muon rates, such as very high speed pixel detectors.

SHAD 2023

23. März - Nationale Sensibilisierungskampagne der Schweizer Hochschulen und Forschungsinstitutionen gegen sexuelle Belästigung

Im Rahmen des Projekts «P-7: Diversität, Inklusion und Chancengerechtigkeit in der Hochschulentwicklung» von swissuniversities beteiligt sich das PSI mit vielen anderen akademischen Institutionen aktiv an der crossmedialen Präventions- und Sensibilisierungskampagne.