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Gallium is used as a sacrificial agent and mixing medium for the isothermal solidification synthesis of high-entropy alloy nanomaterials with diverse crystallinities and morphologies.

High-resolution 3D printing technology making use of two-photon polymerization instead of traditional machining is described, allowing low-cost and scalable production of large arrays of high-quality 3D Paul traps.

The quark structure of the f₀(980) hadron is still unknown after 50 years of its discovery. Here, the CMS Collaboration reports a measurement of the elliptic flow of the f₀(980) state in proton-lead collisions at a nucleon-nucleon centre-of-mass energy of 8.16 TeV, providing strong evidence that the state is an ordinary meson.

Polygenic scores for body mass index and obesity constructed using data from 5 million people with different ancestries were associated with distinct weight gain trajectories from early childhood to adulthood.

The authors find low-energy magnetic excitations and a flat band near the Fermi level in kagome metal superconductor CsCr3Sb5 by angle-resolved photoemission and resonant inelastic X-ray scattering. They suggest that the flat band plays a role in the emergence of charge/magnetic order at low temperatures.

Fan et al. describe DF-003, an alpha-kinase 1 (ALPK1) inhibitor that targets the root cause of the rare genetic disease ROSAH syndrome, demonstrating the ability of DF-003 to inhibit ocular inflammatory pathology in ROSAH model mice.

Experimental systems in which non-trivial topology is driven by spontaneous symmetry breaking are rare. Now, topological gaps resulting from two excitonic condensates have been demonstrated in a three-dimensional material.

Wang, Tang and colleagues develop the low-signal signed iterative random forest pipeline to investigate epistasis in the genetic control of cardiac hypertrophy, identifying epistatic variants near CCDC141, IGF1R, TTN and TNKS loci, and show that hypertrophy in induced pluripotent stem cell-derived cardiomyocytes is nonadditively influenced by interactions among CCDC141, TTN and IGF1R.

Topochemical polymerization (TCP) emerges as a leading approach for synthesizing single crystalline polymers, but the untapped potential of performing TCP in a liquid medium with solid-state structural fidelity presents unsolved challenges. Here, the authors reveal details of single-crystal-to-single-crystal transformation during the TCP of chiral azaquinodimethane monomers through in situ crystallographic analysis while spotlighting a rare metastable crystalline phase.

The molecular-level mechanism by which manganese enhances cobalt catalysts for Fischer−Tropsch synthesis (FTS) of long-chain hydrocarbons from syngas is not well understood. Here, the authors demonstrate that manganese promotes long-chain hydrocarbon production in Co-based FTS catalysts by binding H at basic O sites on MnO, reducing chain termination on Co and thus promoting C₅₊ products.

MultiSTAAR provides a general and flexible statistical framework for functionally informed multi-trait rare variant analysis of biobank-scale sequencing studies by jointly analyzing multiple traits and incorporating annotation information.

Tomonaga-Luttinger liquid behavior has been observed within 1D defects in transition metal dichalcogenides. Here, using complementary experiments and engineered defects, the authors demonstrate the importance of graphene as a substrate and its role in the formation of this quasiparticle excitation in 2D WS₂.

Microbes drive the Earth’s biogeochemical cycles. Here, Li et al. present a framework for integrating genome-inferred microbial kinetic traits into ecosystem mechanistic models, and use it to benchmark predictions against observed greenhouse gas emissions at an Arctic wetland.

Analysis of cancer genome sequencing data has enabled the discovery of driver mutations. Here, as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium the authors present DriverPower, a software package that identifies coding and non-coding driver mutations within cancer whole genomes via consideration of mutational burden and functional impact evidence.

Understanding how copper nanoparticles evolve under electrochemical conditions is crucial for the development of selective CO₂ reduction electrocatalysts. Here the authors prepare well-defined nanocrystals and use advanced operando imaging and spectroscopic techniques to reveal the Cu–CO species-driven dynamic evolution of Cu electrodes.

Entanglement was observed in top–antitop quark events by the ATLAS experiment produced at the Large Hadron Collider at CERN using a proton–proton collision dataset with a centre-of-mass energy of √s  = 13 TeV and an integrated luminosity of 140 fb⁻¹.

Whole-genome sequencing data for 2,778 cancer samples from 2,658 unique donors across 38 cancer types is used to reconstruct the evolutionary history of cancer, revealing that driver mutations can precede diagnosis by several years to decades.

Growth of high-quality III–V semiconductors for electronics and optoelectronics usually requires an atomic-lattice matched substrate. Here, the authors use templated liquid-phase crystal growth to create single-crystalline III–V material up to ten micrometres across on an amorphous substrate.

Analyses of 2,658 whole genomes across 38 types of cancer identify the contribution of non-coding point mutations and structural variants to driving cancer.

Complex oxide interfaces are important for electronic and spintronic applications. In this study, the authors show the emergence of spontaneous magnetism at one such interface between two phases of BiFeO₃due to strain effects and piezoelectric coupling.

Whether multimorbidity accelerates brain Aβ deposition in humans remains largely unknown. Here, the authors demonstrate that higher self-reported multimorbidity burden predicts increased brain Aβ accumulation rates in the ADNI cohort.

Energy density and cyclability are often a trade-off for lithium-ion batteries. The authors develop cobalt- and nickel-free cathodes with both good cycling stability and high energy density through the integration of polyanion units into rocksalt structures.

Maurizi et al. introduce GraphMetaMat, a graph-based AI framework for designing 3D metamaterials with programmable nonlinear responses, enabling the inverse design of new structural and acoustic behaviours despite fabrication defects and limits.

The authors present SVclone, a computational method for inferring the cancer cell fraction of structural variants from whole-genome sequencing data.

Understanding deregulation of biological pathways in cancer can provide insight into disease etiology and potential therapies. Here, as part of the PanCancer Analysis of Whole Genomes (PCAWG) consortium, the authors present pathway and network analysis of 2583 whole cancer genomes from 27 tumour types.

Strong lasing effects similar to those in the optical regime can occur at 1.5–2.1 Å wavelengths during high-intensity XFEL-driven Kα₁ lasing of copper and manganese.

Antibodies against SARS-CoV-2 provide protection against infection, but the virus has evolved to evade them. Here, the authors characterize a human antibody with incomplete neutralization of SARS-CoV-2 variants and engineer it to enhance potency and expand coverage to all tested variants by increasing conformational flexibility.

Nanoparticles are often stabilized by capping ligands but the specific role of such ligands during catalytic processes is often ignored. Now, in situ techniques including spatially resolved infrared nanospectroscopy reveal the ligand-assisted formation of a catalytic microenvironment on the surface of silver nanoparticles with nanoscale precision during CO₂ electroreduction.

Here the authors show the development of soft X-ray ptychographic tomography to quantify the electrochemical state and resolve phase boundaries throughout the volume of individual nano-particles from a composite battery electrode.

Solving partial differential equations is the cornerstone of scientific and engineering development. Here, authors show a high-performance optical neural engine architecture, combining diffractive optics and optical matrix multipliers, to solve a variety of equations in broad scientific domains.

Multi-omics datasets pose major challenges to data interpretation and hypothesis generation owing to their high-dimensional molecular profiles. Here, the authors develop ActivePathways method, which uses data fusion techniques for integrative pathway analysis of multi-omics data and candidate gene discovery.

The efficiency with which plants use carbon assimilated through photosynthesis has a key role in determining natureʼs capacity to offset carbon dioxide emissions. This study leverages global eddy covariance observations and ecological theory to reveal the patterns of vegetation carbon use efficiency worldwide.

Lasing in a hard-X-ray free-electron laser is typically seeded from noise due to the self-amplification of spontaneous emission, which limits temporal coherence and spectral characteristics. Researchers now demonstrate self-seeding using X-rays from the first half of the magnetic undulator to seed the second half via a diamond-based monochromator at ångström wavelengths.

With the generation of large pan-cancer whole-exome and whole-genome sequencing projects, a question remains about how comparable these datasets are. Here, using The Cancer Genome Atlas samples analysed as part of the Pan-Cancer Analysis of Whole Genomes project, the authors explore the concordance of mutations called by whole exome sequencing and whole genome sequencing techniques.

The CMS Collaboration reports the study of three simultaneous hard interactions between quarks and gluons in proton–proton collisions. This manifests through the concurrent production of three J/ψ mesons, which consist of a charm-quark–antiquark pair.

The development of three-dimensional (3D) covalent organic frameworks (COFs) with novel topologies is of both fundamental and practical interest but the construction of highly crystalline 3D COF remains challenging. Here, the authors report highly crystalline 3D COFs with pto and mhq-z topologies by rationally selecting rectangular-planar and trigonal-planar building blocks with appropriate conformational strains.

A highly scalable approach is used to generate 3,000 genome-wide maps of transcription factor binding in ten flowering plants, along with multi-species single-nucleus RNA-seq atlases. Together, the results reveal both ancient regulation and key regulatory adaptations.

The authors here show that chromatin interactions during mouse fetal development are spatiotemporally dynamic. Integrating interactomes with other datasets predicts target genes for candidate enhancers and helps interpret noncoding risk variants in the human genome.

Oxides with a face-centred cubic anion sublattice are generally not considered as solid-state electrolytes. Li superionic conductivity in face-centred cubic oxides with face-sharing Li configurations have now been created through cation over-stoichiometry in rocksalt-type lattices via excess Li.

Unprecedented groundwater recovery ( ~ 0.7 m/yr) driven by water diversions, strict pumping regulations, and a wet climate occurred in the North China Plain after decades of depletion, showing large-scale recovery is possible under human intervention.

The stability of perovskite tandem solar cells is an issue. Li et al. show that diamines improve the compositional homogeneity of a low-bandgap perovskite surface and form a low-dimensional barrier that passivates defects, leading to an operational stability of over 1,000 h.

How nanocrystals assemble into superlattices is poorly understood, given the difficulty of probing these processes in real time, in a controlled environment. Here, the authors use space- and time-resolved in situ small angle X-ray scattering to monitor the ordering of nanocrystal superlattices by electric field, which allows them to extract quantitative information about the assembly process.

A vanadium-based lithium-rich disordered rock salt oxide is shown to work as a low-potential anode with rapid intercalation kinetics for lithium-ion batteries.

Integrative analyses of transcriptome and whole-genome sequencing data for 1,188 tumours across 27 types of cancer are used to provide a comprehensive catalogue of RNA-level alterations in cancer.