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In the standard Si transistor gate stack, replacing conventional dielectric HfO₂ with an ultrathin ferroelectric–antiferroelectric HfO₂–ZrO₂ heterostructure exhibiting the negative capacitance effect demonstrates ultrahigh capacitance without degradation in leakage and mobility, promising for ferroelectric integration into advanced logic technology.

Transport measurements of dual-gated devices constructed by slightly rotating a monolayer graphene sheet atop a thin bulk graphite crystal are performed, showing that moiré potential transforms the electronic properties of an entire graphitic thin film.

Optical experiments on WSe₂/MoSe₂ heterobilayers reveal signatures of moiré trions, including interlayer emission with sharp lines and a complex charge-density dependence, features that differ markedly from those of conventional trions.

Collagen VI microfibril cryo-EM structure resolves a cysteine-rich coiled-coil important for heterotrimerization and microfibril assembly, reveals a hotspot of collagen VI muscular dystrophy mutations and provides a template for therapeutic design.

We report superconductivity, in a limited region of displacement field and density, in 5.0° twisted bilayer WSe₂ with a maximum critical temperature of 426 mK, establishing that moiré flat-band superconductivity extends beyond graphene structures.

The representation of space in mouse visual cortex was considered to be relatively uniform. The authors show that mice have improved visual resolution in a cortical region representing a location in space directly in front and slightly above them, showing that the representation of space in mouse visual cortex is non-uniform.

JWST data show that the exoplanet WASP-18b has thermally distinct regions of its dayside. The authors mapped the sizes of these regions, measured their temperatures and potentially identify water destruction in the hottest region.

Conventional ammonia synthesis is energy intensive. Here the authors explore the mechanism of light-driven ammonia synthesis through in situ spectroscopy and modelling, and demonstrate that certain AuRu plasmonic alloys are promising catalysts for this potentially more sustainable process.

A method of nanometre-level patterning of high-density extended 1D and 2D defects in thin films of perovskite oxides is developed.

The majority of scoliosis is considered idiopathic with onset in adolescence (AIS) and has a genetic contribution. Here, the authors perform an exome wide association study of data from 457 severe AIS cases and 987 controls, and find a missense variant in SLC39A8 is associated with AIS.

A materials platform using tantalum as a base layer and silicon as the substrate to construct superconducting qubits enables device performance improvements such as millisecond lifetimes and coherence times, as well as high time-averaged quality factors.

Magnetic reconnection, thought to drive solar eruptions, has been studied with remote sensing. The Parker Solar Probe has directly measured reconnection-associated plasma properties in situ in the solar corona, deepening our understanding of the process.

Chronic inflammation hinders the repair of muscle injury, and macrophages are known to play roles in reparative processes. Here the authors show in an nlrc3l-mutant zebrafish model, chronic inflammation drives repression of a mannose-receptor-dependent reparative pathway in macrophages and results in the loss of discrete macrophage states.

The spectrally narrow photoluminescence lines occurring in transition metal dichalcogenides (TMD) heterostructures at low temperature have been attributed to interlayer excitons (IXs) localized by the moiré potential between the TMD layers. Here, the authors show that these lines are present even when the moiré potential is suppressed by inserting an hBN spacer between the TMD layers.

This work advances multimodal structural refinements to generate 3D polarization maps for relaxor ferroelectrics, revealing continuous textures with vortex meron features tied to chemical disorder and deepening understanding of relaxor phenomena.

The authors identify fluctuating local polarization as a key atomistic factor behind enhanced piezoelectricity in perovskites, offering new insights into performance differences and guiding the design of next generation piezoelectric materials.

KDM4C regulates cathepsin L-mediated histone H3 N-terminal tail clipping through grainyhead-like 2 (GRHL2) methylation in breast cancer. This link between the cellular redox state and chromatin remodeling might represent a therapeutic target in KDM4C-amplified tumors.

Origami is widely practiced in the design of foldable structures for smart applications and usually consists of stiff sheets that only deform along prescribed creases. Pinsonet al. take a statistical physics approach to design and characterize arbitrary patterns as a function of folding energy.

Borophene, or 2D boron, is highly polymorphic with many predicted lattice arrangements, complicating the identification of its atomic structure. Here, the authors use functionalized-tip scanning probe microscopy to directly resolve the atomic lattice structures of several borophene polymorphs.

When doubly-degenerate band crossings known as Kramers nodal lines intersect the Fermi level, they form exotic three-dimensional Fermi surfaces composed of massless Dirac fermions. Here, the authors present evidence that the 3R polytypes of TaS₂ and NbS₂ are Kramers nodal line metals with open octdong and spindle-torus Fermi surfaces, respectively.

In this work, authors develop obex inhibitors that target a distinct binding pocket in the ATPase domain of Topoisomerase II. They demonstrate how Topobexin, a Topoisomerase IIβ - selective catalytic inhibitor, blocks conformational changes and protects against anthracycline cardiotoxicity.

Observations of a 3-million-year-old pre-main-sequence star with a misaligned disk reveal a giant orbiting planet; the system is ideal for studying the early formation and migration of planets.

Here the authors report a low-cost method to fabricate flexible Ag2Se thermoelectric films with high performance and durability, enabling efficient energy harvesting and cooling in wearable and portable thermoelectric devices.

Here Jaster et al., show a single psilocybin dose produce sex-specific post-acute changes in opioid reward and withdrawal via 5-HT2A receptors in frontal cortex-to–nucleus accumbens circuits, with epigenetic and synaptic changes shaping therapeutic potential.

Several moons in the outer Solar System have oceans encased beneath an ice shell. If the ice shell thins, ocean pressure decreases. Modelling shows that on Mimas, Enceladus, and Miranda, the ocean can boil. On larger bodies, instead, compressional forces form tectonic features.

Gold nanostructures have shape-dependent properties, making synthetic control over their morphology critical. Here, the authors use dynamic compression to obtain a variety of gold nanoarchitectures, which are formed at very fast timescales by the controlled coalescence of spherical particle arrays.

Typical quantum error correcting codes assign fixed roles to the underlying physical qubits. Now the performance benefits of alternative, dynamic error correction schemes have been demonstrated on a superconducting quantum processor.

Array microscope with mirrored well plates enables automated, scalable 3D behavioral analysis of 48 zebrafish larvae in parallel, revealing complex kinematics and phenotypes missed by conventional 2D methods.

Whether high-order frontal lobe areas receive raw speech input in parallel with early speech areas in the temporal lobe is unclear. Here, the authors show that frontal lobe areas get fast low-level speech information in parallel with temporal lobe speech areas.

Global energy budgets of planets are important to understand their climate system. Here, the authors show long-term multi-instrument observations from Cassini spacecraft, which reveals dynamical imbalances of Saturn’s global energy budget.

3D-RAPID, a scalable computational microscope using 54 cameras, records 3D topographic videos of freely moving organisms over an area of 135 cm² at a spatial resolution of tens of micrometres and at a throughput exceeding 5 gigapixels per second.

Neutral helium microscopy is a completely nondestructive, surface-sensitive imaging technique. Here, the authors demonstrate sub-resolution contrast using an advanced facet scattering model to reconstruct the topography of technological thin films in the ångström range.

Single-molecule measurements of DNA gyrase activity reveal conformational dynamics coupling ATP consumption to DNA supercoiling.

Understanding the intricate relationship between alloying elements and oxidation processes is essential for the integrity and performance of materials. Here, the authors study the effects of atomic size and redox potential to understand the oxidation process and structural changes in surface oxides.

Neural mechanisms underlying cross-modal generalization of learned sensorimotor associations are not fully understood. Here authors show that mice use a specialized cortical circuit to generalize learned behaviors between vision and touch. A single region in the dorsal cortex is essential for forming abstract spatial representations that enable cross-modal flexibility.

Vaccines inducing mucosal immunity may provide better protection from respiratory viruses. Here, Ykema et al. demonstrate the utility of a bivalent, mucosally delivered nanostructured lipid carrier-replicon vaccine for induction of mucosal and systemic immunity and protection against morbidity and mortality from H5N1 and H7N9 influenza.

In this alternative approach to quantum computation, the all-electrical operation of two qubits, each encoded in three physical solid-state spin qubits, realizes swap-based universal quantum logic in an extensible physical architecture.

Cross-phase manipulation holds potential for applications in synthetic biology and drug delivery. Here, authors present an acoustofluidic platform that enables rapid embedding of microparticles from an oil phase into aqueous droplets, offering an effective tool for studying cellular multiphase interactions and related phenomena.

This work introduces a fabrication method for mechanically controllable, self-sensing soft-rigid hybrid robots. Translational, bending, and roto-translational modules are designed and assembled as a continuum robot with real-time shape-sensing.

Determining the time evolution of reactions at the quantum mechanical level improves our understanding of molecular dynamics. Here, authors separate the breakup of water, one bond at a time, from other processes leading to the same final products and experimentally identify, separate, and follow step by step two breakup paths of the transient OD⁺ fragment.

This study shows that non-invasive ultrasound to the human nucleus accumbens can modulate deep brain activity and enhance reward-guided learning, offering a potential alternative to invasive neuromodulation therapies.

Mussels produce a dynamic bio-interface between their living tissue and their non-living byssus attachment, relevant for design of implant devices. Here, authors discover a mechanoresponsive protein that may mediate mechanosensing at the interface.

Few models exist that describe the spontaneous organization of colloids into materials. Here, the authors combine liquid-phase TEM and single particle tracking to observe the dynamics of gold nanoprisms, finding that nanoscale self-assembly can be understood within the framework of atomic polymerization.

A multi-view reflector microscope based on polarization modulation and pupil splitting enables single-molecule orientation-localization microscopy with precisions of 10.9 nm and 2.0°.

Samples returned from asteroid Bennu by NASA’s OSIRIS-REx mission contain N-rich organics with prebiotic implications. This material probably formed in the earliest stages of the asteroid’s history possibly even before its water ice melted.

Neural circuits in adult mouse visual cortex are stabilized by astrocytes, which secrete CCN1, resulting in reduced plasticity and increased maturation of multiple cell types.

Observations from the Lucy spacecraft of the small main-belt asteroid (152830) Dinkinesh reveals unexpected complexity, with a longitudinal trough and equatorial ridge, as well as the discovery of the first contact binary satellite.