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Curti et al., 2026

Recrystallization in aqueous solutions is a ubiquitous process susceptible to control the entrapment and release of toxic contaminants in the subsurface. However, unraveling the underlying mechanisms and driving forces has proven to be elusive, as recrystallization frequently follows different kinetic pathways even for the same mineral, depending on its initial state and pre-treatment. To obtain a better insight, a large body of experimental data from isotope tracer experiments carried out....

Owusu et al., 2026

Various dissolved gases, such as CO, H, and CH, may be present in the near-field geological repository due to metal corrosion or the degradation of organic waste. However, the influence of dissolved gases on the swelling behavior of bentonites, commonly used as backfill material, is still poorly understood. In this study, classical molecular dynamics simulations are conducted to....

Ban et al., 2026

Hydrotalcite-group layered double hydroxide (LDH) phases are important in many technical and geological contexts, and in applications ranging from environmental processes to catalysts to cements. This study systematically investigates the roles of Fe in LDH structures across varying....

Muon-spin spectroscopy at continuous sources has stagnated at a stopped muon rate of ∼40kHz for the last few decades. The major limiting factor is the requirement of a single muon in the sample during the typical 10µ⁢sdata gate window. To overcome this limit ...

Realizing exotic Hamiltonians beyond the Ising model is a key pursuit in experimental statistical physics. Onesuch example is the Blume-Capel model, a three-state spin model, whose phase diagram features a tricritical point where second-order and first-order transition lines converge, leading to a coexistence of paramagnetic, ferromagnetic, and disordered phases. Here, we realize  ...

Researchers from an international collaboration between the United Kingdom and Switzerland have performed imaging of an antiferromagnetic iron oxide membrane using soft X-ray microscopy. By stretching the membranes using a gas cell, the team investigated the modification of domain structures under strain.

Ruthenium dioxide (RuO₂) has recently emerged as an altermagnetic candidate, but its intrinsic magnetic ground state in thin films remains widely debated. This study aims to clarify the nature and spatial extent of the magnetic order in RuO₂thin films grown under different conditions ...

A new PSI-designed and built soft X-ray ptychography endstation, SOPHIE, has been successfully commissioned. Routine sub-5nm imaging was demonstrated.

Single crystal spinel CoFe₂O₄ exhibits the largest room-temperature saturation magnetostriction among non-rare-earth compounds and a high Curie temperature (T₍c₎ ∼ 780 K), properties that are critical to a wide range of industrial and medical applications. Neutron spectroscopy  ...

Wang et al., 2025

Hydrotalcite-pyroaurite solid solutions, which are common minerals both in nature and in modern cementitious materials, hold significant potential for waste immobilization and cement properties yet remain insufficiently studied. In this work, we first synthesized a series of hydrotalcite...

Optimizing hydrogen and oxygen transport within porous electrodes is essential for improving the efficiency of industrial alkaline electrolyzers. In this study, we utilize operando dynamic neutron radiographic measurements to investigate  ...

Zhang et al., 2025

Understanding the early-stage reconstruction of Mg/Al layered double hydroxide (LDH) is critical for enhancing anion immobilization in low-carbon cementitious systems. Here, we combined in-situ and ex-situ synchrotron X-ray diffraction analyses to reveal the time-dependent and reversible layered structure transformation of Mg/Al-LDH from calcined Mg/Al-LDH (CLDH) in cementitious environments enriched with...

We experimentally report a hitherto unseen angular anisotropy in the polarized small-angle neutron scattering (SANS) cross section of a magnetically strongly inhomogeneous material  ...

We report on the oil solubilization of amphiphilic single chain nanoparticles (SCNPs) based on random copolymers composed of oligo(ethyleneglycol) methacrylate (OEGMA) and anthracene methacrylate (AnMA). Small-angle X-ray scattering (SAXS) combined with molecular dynamics simulations reveal  ...

We probe the spectrum of elementary excitations in SrIrO₃ by using heterostructured [(SrIrO₃)_m / (SrTiO₃)_l] samples to approach the bulk limit. Our resonant inelastic x-ray scattering (RIXS) measurements at the Ir L₃ edge reveal  ...

Many day-to-day materials rely on formulations of surfactants to control flow, texture and application. Inspired by the pairing of bases between DNA strands, we demonstrate enhanced control  ...

The search for chiral topological superconductivity in magnetic topological insulator (TI)-FeTe heterostructures is a key frontier in condensed matter physics, with potential applications in topological quantum computing. The combination of ferromagnetism, superconductivity, and topologically nontrivial surface states brings together the key elements required for chiral Majorana physics. In this work ...

To study the heat and water vapor transport and reaction kinetics in a packed bed of thermo-chemical material on both reactor and tablet level, an in-situ neutron imaging study of a dehydrating and subsequently hydrating packed bed consisting of cylindrical K₂ CO₃ tablets was performed at the Paul Scherrer Institute ...

The search for new quantum many-body phenomena in magnetic materials has a strong focus on highly frustrated systems and the resulting quantum spin-liquid state. However, even unfrustrated magnetic materials show a multitude of unconventional features in their spin excitation spectra. By using the synergy of ...

Marinich et al., 2025

The ClaySor 2023 model package within the GEM-Selektor software includes an updated version of the two-site protolysis non-electrostatic surface complexation and cation exchange model for illite and montmorillonite, as well as the first implementation of the generalised caesium sorption model for illite. These models have been harmonised with the most recent PSI Chemical Thermodynamic Database 2020, resulting in the updated.....

Efficient manufacturing methods could unlock foams with tailored, anisotropic properties. Conventional foam production methods rely on the self-arrangement of bubbles, typically leading to isotropic materials, or involve intricate additive layering processes. This study presents a simple, passive technique to modify the foam structure. A set of thin parallel wires ...

Water transport in proton-exchange membrane fuel cells (PEMFCs) with superhydrophobic catalyst layers (CLs) has been studied with neutron radiography. Superhydrophobic CLs were deposited by electrospray on the membrane to be tested on the cathode and anode sides of the cells. The cells are operated under ...

Chiral crystals, whose key feature is the structural handedness, host exotic quantum phenomena driven by the interplay of band topology, spin-orbit coupling (SOC), and electronic correlations. Due to the limited availability of suitable chiral-crystal materials, their unconventional superconductivity (SC) remains largely unexplored. 

Here, the discovery ... 

The discovery of the axial amplitude mode—commonly referred to as the Higgs mode—in charge density wave systems, such as rare-earth tritellurides, indicates the presence of a hidden order. A theoretical study proposed that this axial Higgs mode arises from a hidden orbital texture of the charge density wave, which produces a ferroaxial charge order.

However, experimental evidence ... 

We congratulate Hao Guo for receiving the award of the best poster at the Swiss Pharma Day.

Grey, hard, boring – for most people, these three words adequately describe concrete as a material. John Provis has a different view. This scientist at the Paul Scherrer Institute PSI has devoted his research career to this ubiquitous and economically important building material. He hopes to unlock the secrets of concrete.

Manipulating microscopic objects with sound: hybrid acoustic tweezers with strong acoustic field were developed and successfully applied for transient mechanical deformation and capturing of biological cells.