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Microbial consortia offer a promising route for sustainable wastewater treatment but are often constrained by inefficient interspecies metabolic interactions. This study shows that hydrogel-defined mesospace confinement enhances interspecies cross-feeding by regulating transmembrane transport and metabolite retention, improving pathway selectivity and treatment efficiency.

An extreme barocaloric effect in NH₄SCN aqueous solutions is enabled by pressure-induced dissolution and precipitation, but without using a separate heat-transfer liquid.

Polygenic scores often underperform in non‑European ancestries. Here, the authors present GPTL, an R package with three transfer‑learning methods that improve cross‑ancestry PGS using either individual‑level data or GWAS summary statistics.

Tan and colleagues develop DNA nanodevices to detect the pH of the lysosomal outer surface, observing an acidic layer generated by TMEM175 that regulates lysosome positioning in response to changes in juxta-lysosomal pH.

CO₂-driven warming reduces phosphorus availability in rice paddies by promoting its binding with iron and organic carbon in the soil, according to a ten-year experiment using a free-air CO₂ enrichment system to simulate in situ climate warming.

Stone tools illustrate behavioural complexities in Middle Pleistocene hominin populations. Here, the authors present small dimensional flakes and hafted tools from Xigou, central China, dated to ~160–72 thousand years ago that demonstrate early, complex technological advancements.

Genome-wide association analyses using data from 19 biobanks identify variants influencing risk of thyroid diseases and yield polygenic risk scores associated with features of aggressive thyroid cancer.

Can a minimal model reveal quasicrystal emergence and associated multi-level hierarchies of crystal patterns? Here, the theoretical discovery of the underlying energy ground states of Hertzian quasicrystal offers a new perspective on its formation.

Control of chiral assembly across length scales is desirable but challenging. Here, the authors report the development of microscopic chiral twists prepared by the hierarchical assembly of enantiomeric amphiphiles.

2D p-type transistors are essential for the realization of complementary circuits for post-silicon electronics. Here, the authors report a chloroform doping strategy to fabricate p-type monolayer WSe₂ transistors with high performance and long-term stability.

This study introduces a sediment-based method to reconstruct Antarctic fast-ice change during the late Holocene, revealing cyclic patterns linked to solar variability and offering insight into long-term cryosphere climate dynamics.

Organic additives frequently shape crystallisation in natural and industrial settings, yet their precise influence on nucleation remains poorly understood. Here, Baken et al. investigate how additives affect the crystallization of the industrially relevant minerals portlandite and gypsum. Using controlled titration coupled with in situ synchrotron monitoring, the team demonstrates that both minerals form via intermediate steps: portlandite gradually becomes more ordered as it develops, while gypsum switches abruptly from a disordered to an ordered state. The study reveals that additives influence these pathways prior to nucleation by altering the nature of prenucleation clusters. How strongly an additive interacts with these clusters depends on its chemical state, which is controlled by the pH conditions specific to each mineral. These findings offer a starting point for creating an industrial “toolbox” to help select more effective additives, and they advance our understanding of biomineralisation processes.

Salt fingers (warm saline water overlying cold fresh water) enhance diffusivity and promote vertical oxygen mixing in an oxygen minimum zone, according to analyses of high-resolution microstructure, velocity, and oxygen data from the Eastern South Pacific

A van der Waals heterostructure made from atomic layers of ferroelectric CuCrP₂S₆ and ferromagnetic Fe₃GeTe₂ can offer reversible, non-volatile ferroelectric control of two-dimensional magnetism.

This study shows that WDR5 remodels NANOG condensates to control transcriptional programs. Disrupting their interaction compromises stem cell identity and suppresses leukemia stem cell expansion.

CLC transporters exchange Cl⁻ for H⁻ with 2:1 stoichiometry. Here, authors integrate hydrogen-deuterium exchange, cryo-EM, MD simulations, ion binding analysis, and functional assays to establish a complete ion-exchange model, explaining how subtle dynamics enable reversible transport.

Anti-phased changes in Antarctic Circumpolar Current strength between the Indian and Pacific sectors of the Southern Ocean occurred on orbital timescales over the past one million years, linked to glacial cycles and obliquity forcing, according to proxy records and modelling.

JWST’s COSMOS-Web survey is used to create an ultra-high-detail dark matter map, revealing hidden filaments, clusters and distant structures. By tracing features out to z = 2, this map shows how dark and luminous matter build the cosmic web across cosmic time.

Peripheral macrophage-like haemocytes in Drosophila promote sleep by clearing lipid buildup in the brain, helping to maintain metabolic homeostasis and brain function and fitness.

The authors demonstrate dual-probe multi-messenger imaging of high-energy-density plasmas based on laser-wakefield-accelerated electrons. This enables spatiotemporally resolved simultaneous probing of plasma hydrodynamics and electromagnetic field evolution with both x-ray and electron beams.

The narrow rings seen in some debris disks, thought to be evidence for hidden exoplanets, might instead be caused by gas–dust interaction and a recently identified photoelectric instability.

DNA replication follows a precise temporal schedule that varies across cell types. Here, the authors show that, in embryonic stem cells, the pluripotency factor OCT4 promotes early activation of normally late-firing replication origins by increasing local chromatin accessibility.

Ion diffusion region is an indicator of active magnetic reconnection, but it had not been detected in Jupiter’s magnetosphere previously. Here, the authors show a magnetic reconnection event in Jupiter’s inner magnetosphere that presents the detection of an ion diffusion region.

Integrating semiconductor p-n junctions with magnetic materials yields van der Waals heterojunctions as an ideal low-power spintronic platform. Zhu et al. report an abnormal zero-bias spin voltage effect arising from non-equilibrium spin diffusion.

Acidic electrochemical CO₂ reduction promises efficient carbon use, but maintaining stable acidity at high current remains a major challenge. Here, the authors demonstrate a membrane-free CO₂ hydrogenation electrolyzer that stabilizes pH and enables efficient and stable formic acid production.

Enantioselective dicarbofunctionalization of alkenes is a powerful strategy for constructing functionalized sp³-rich molecules. Here, the authors report a palladium-catalyzed asymmetric migratory process that enables highly selective 1,3- and 1,4- diarylation of unactivated trisubstituted alkenes.

A body-induced electroluminescence device enables three-dimensional finger tracking, providing a versatile platform for human–machine interaction that senses motion both on and above the device surface.

The relative contribution of lipid catabolism on fasting-induced longevity was unknown. Authors showed lifespan extension from fasting depend on silencing lipid catabolism upon nutrient replenishment through phosphorylation of NHR-49 by KIN-19.

Geometrical frustration in confined systems can lead to the emergence of topological defects, which significantly influence the physical properties of materials. This study demonstrates that grain boundary scars in dense assemblies of active spinners can decouple edge flows from the bulk, resulting in spontaneous self-shearing and a chiral activity-mediated reentrant melting transition.

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.

Rechargeable zinc batteries are promising for grid energy storage but can suffer from short circuits and side reactions. Here, the authors design low-surface-tension electrolytes that enable dense, dendrite-free zinc deposition, achieving long-lasting batteries even under harsh operating conditions.

The implementation of non-negative matrix factorization–a powerful technique finding hidden patterns in high-dimensional data – remains challenging due to computational complexity. Wang et al. report an in-memory analogy solver, enabling accurate factorization with fast operation at low power consumption.

Phase transitions in Na layered transition metal oxide materials involving slab gliding and considerable lattice parameter changes limit the battery cycling life, especially at high voltages. Here, authors pre-engineer 15.8% O-type stacking faults to a P-type Na0.7Mn0.8Ni0.2O2, improving stability and enabling an electrode specific energy of 635 Wh kg-1 with 600-cycle life.

New results indicate that rhabdodontids and the previously described Ajkaceratops are actually distinctive European ceratopsians, a group better known from Asia and North America.

Here, the authors combine bioinformatic, mass spectrometric, and sequencing-based mapping tools to identify previously undescribed phosphorothioate epigenetic systems widespread in the human gut microbiome.

The authors mapped spontaneous and choice activity across mouse prefrontal cortex. The activity maps aligned with intrinsic connectivity rather than anatomical subregions, suggesting that connectivity, not cytoarchitecture, organizes prefrontal function.

van der Waals (vdW) dielectric materials with a wide bandgap and high dielectric constant are necessary for the development of 2D electronics. Here, the authors report the synthesis of quasi-vdW layered Sm₂O₂SO₄ thin crystals, showing a bandgap of ~5.54 eV and a dielectric constant ~18, leading to high performance 2D MoS₂ transistors.

Examining human brain organoids and ex vivo neonatal murine cortical slices demonstrates that structured neuronal sequences emerge independently of sensory input, highlighting the potential of brain organoids as a model for neuronal circuit assembly.

The authors reveal distinct atomic-scale mechanisms underlying phase boundary engineering formation and explain the different electrical properties of two (K, Na)NbO₃ based materials with the similar phase boundary, providing a new mechanistic insight.

Moral-Sanz, Fernández-Carrasco and colleagues identify senolytic properties of sea anemone-derived pore-forming toxins, with selectivity mediated by senescence-associated lipid profiles. An optimized senotoxin improves the efficacy of chemotherapy in mouse models.

Tumor-associated macrophages play central roles in the cellular immune response in the tumor microenvironment. Here the authors implicate the m6A methyltransferase METTL3 in glioma progression by regulation of the ISG15/FASN modulated lipid metabolism in macrophage.

Adenine base editors (ABEs) are powerful tools for gene therapy, though efficient versions of ABEs often induce excessive undesired editing events, limiting clinical application. Here, authors developed a Language Model to design a more precise ABE that can correct pathogenic point mutations and enable gene therapy in vivo.

Plant traits drive ecosystem dynamics yet are challenging to map globally due to sparse measurements. Here, the authors combine crowdsourced biodiversity observations with Earth observation data to accurately map 31 plant traits at 1 km² resolution.

Coherent spin waves—quantized into magnons—can be emitted as Cherenkov radiation, but their experimental realization is hindered by the lack of fast-moving magnetic perturbations. Now, a picosecond strain pulse is shown to induce this effect.

High-resolution flare footpoint observations in the extreme ultraviolet and X-rays were taken by Solar Orbiter. Combined with simulations, the results reveal that the dominant mechanism carrying flare energy through the Sun’s atmosphere can vary on small spatial scales.