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Low-dimensional materials manifest structural anisotropy, quantum confinement, and tightly bound excitonic states, which make them attractive building blocks that can be assembled within three-dimensional laterally stitched heterostructures, stacked van der Waals solids, and complex moiré superlattices ...

EuAg₄Sb₂ is a rhombohedral europium triangular lattice material that exhibits a rich phase diagram of spin moiré superlattices (SMS) and single-q magnetic phases. In this paper, we characterize ...

We use muon spin rotation/relaxation/resonance (μSR) to investigate the magnetic properties of niobium pentoxide (Nb₂O₅) and tantalum pentoxide (Ta₂O₅) thin films. In both oxides, we observe a magnetic response at the lowest available temperature of 2.8 K ...

The steady decline of neutron imaging (NI) facilities—driven in part by the shutdown of several research reactors—has increased the need to maximize the use of existing infrastructure. In this context, a collaborative effort between PSI-CNM, PSI-NES, and EPFL-LRS has led to the development ...

The steady decline of neutron imaging (NI) facilities—driven in part by the shutdown of several research reactors—has increased the need to maximize the use of existing infrastructure. In this context, a collaborative effort between PSI-CNM, PSI-NES, and EPFL-LRS has led to the development ...

Using neutron and muon experiments, a team from South Korea, the USA, the Paul Scherrer Institute (PSI), and ISIS investigated the structure under ambient conditions and dynamics of a magnetic field-induced intermediate  ...

Y-kapellasite [Y₃Cu₉(OH)₁₉Cl₈], which hosts an original anisotropic kagome sublattice, is a promising candidate for studying elusive and complex correlated physics. It exhibits a theoretically predicted in-plane (1/3; 1/3) magnetic order, but its magnetic interaction values place it close to a phase boundary to a spin liquid state ... 

The food industry is increasingly focusing on sustainable products. Proteins from green biomass are a promising option, as a research team involving the MLZ has discovered. These can be used, for example, as stabilisers in emulsions, such as in plant-based alternatives to yogurt, milk, ice cream, or cheese.

We report the dielectric and magnetic properties of epitaxial thin films of the high entropy oxide (HEO) perovskite Nd(Cr_0.2Mn_0.2Fe_0.2Co_0.2Ni_0.2)O₃, which orders magnetically below T_mag ≈ 190 K.

At T ≫ T_mag, the dielectric response reveals ...

SrTaO_xN_y (STON) is a well-known visible light-responsive semiconductor with ideally located band edges that allow the operability of overall water splitting. Like many oxynitrides, STON shows evidence of detrimental physicochemical changes under oxygen evolution reaction (OER) conditions involving strong caustic electrolytes. ...

A multiscale understanding of the structure of ionogels – nanoparticle-free polymer composites incorporating ionic liquids – is essential for enhancing their macroscopic functional properties and unlocking their potential in critical applications such as energy storage, sensing, and actuation. We establish ...

The β-pyrochlore CsNiCrF₆ is a charge ice—each tetrahedron of the pyrochlore lattice is occupied by two Ni²⁺ and two Cr³⁺ according to an ice rule, resulting in fully packed same-species loops with power-law length distribution. Using inelastic neutron scattering and numerical simulations, we show ...

A team of scientists, led by researchers at PSI, has introduced the Materials Cloud Three-Dimensional Structure Database (MC3D), a systematically curated database of quantum-mechanical calculations for inorganic materials derived from experimental crystal structures. The database contains more than 32 000 structures whose relaxed geometry and electronic structure were computed using carefully standardized DFT workflows, using three different functionals and/or computational protocols. Beyond providing a consistent reference dataset for computational materials science, MC3D also supports emerging data-driven approaches. For example, it served as a starting point for datasets used to train machine-learning interatomic potentials.

The isotope effect is a powerful probe of electron-phonon interactions in solid-state systems, offering key insights into how atomic mass influences emergent quantum states. Here, the impact of oxygen-isotope substitution (¹⁶O→¹⁸O) on charge- and spin-density wave (CDW and SDW) transitions in the double-layer Ruddlesden-Popper nickelate La₃⁢Ni₂⁢O₇ is investigated ...

Understanding the interplay between magnetism and superconductivity in nickelate systems is a key objective in condensed matter physics. Gaining microscopic insights into magnetism—particularly as it emerges near superconductivity—requires a synergistic approach that combines complementary experimental techniques with controlled tuning of external parameters. In this paper, we present ...

Inconel 718 dominates laser powder bed fusion (PBF-LB/M) builds as the benchmark Ni superalloy for its γ′/γ″ hardenability, weldability, and qualification pedigree, yet its fatigue resistance remains limited by porosity, tensile residual stresses, and microstructural heterogeneity ...

We report direct, simultaneous measurements of the London penetration depth (λ_L ) and Bardeen-Cooper-Schrieffer coherence length (ξ₀) in oxygen-doped niobium, with impurity concentrations spanning the “clean”to “dirty” limits  ...

Transition metals exemplify correlated electronic systems, where electron-electron (𝑒−𝑒) scattering often results in a quadratic temperature dependence of the electrical resistivity, 𝜌⁡(𝑇) ∝𝑇2. In SrVO3 (SVO), a material with a 𝑉−3⁢d1 electronic configuration that ensures metallicity through narrow 3⁢𝑑−t2⁢𝑔 bands, a 𝜌⁡(𝑇) ∝𝑇2 dependence has been reported. While traditionally attributed to 𝑒−𝑒 scattering, recent studies suggest that electron-phonon (𝑒-ph) interactions may play a significant role. To unravel the influence of phonon interactions on carrier transport in SVO, we present a comparative study of the transport and optical properties of SVO films with partial substitution of 16O ions by their heavier isotope, 18O. Our findings reveal that 18O substitution induces a change in the slope of 𝑑⁢𝜌⁡(𝑇)/𝑑⁢𝑇 at nominal fixed carrier density, highlighting the dominant contribution of 𝑒-ph coupling over 𝑒−𝑒 scattering in determining 𝜌⁡(𝑇). Furthermore, it is found that the 18O substitution softens the phonon lattice and promotes a reduction in plasma frequency and an increase in the carrier effective mass. These results indicate that the 𝑒-ph coupling strength increases upon 18O substitution. Our findings suggest that 𝑒-ph interactions may surpass 𝑒−𝑒 scattering in governing the resistivity of metallic ionic lattices. ...

Powerful atomistic simulation tools have transformed materials research, but their complexity still limits who can use them and how easily results can be reproduced: a gap that a new web-based app now helps close. The AiiDAlab Quantum ESPRESSO app, described in a recent publication in npj Computational Materials, can run not only isolated calculations but also complete, end-to-end computational workflows involving multiple passages over several different materials, lowering the barrier for both experimentalists and computational experts. This is achieved through the tight integration of the widely-used Quantum ESPRESSO simulation software package with the AiiDA engine, a workflow-management system to help automate complex simulations in materials science (whose development is led by the Materials Software and Data group at PSI), which has provided substantial support to its development alongside contributions from the broader community.

The interplay between magnetism and charge transport is central to understanding colossal magnetoresistance (CMR), a phenomenon well studied in ferromagnets. Recently, antiferromagnetic (AFM) EuCd₂P₂ has attracted considerable interest ...

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.  

Resonant inelastic x-ray scattering reveals that lattice vibrations can be chiral in a polar material, with phonons having opposite handedness depending on their direction in momentum space.