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Atomic-resolution imaging of the surface structure of hexagonal water ice is achieved using cryogenic atomic force microscopy, providing a molecular perspective on the origin and mechanism of of ice premelting.
Single-cell RNA sequencing and 3D imaging have revealed the cellular changes and structural reorganization that occur during the progression of human chronic liver disease and as the liver attempts to regenerate.
Stable chelation of the 147Pm radionuclide in aqueous solution by the newly synthesized organic diglycolamide ligand is demonstrated and the resulting complex studied, showing accelerated shortening of bonds at the beginning of the lanthanide series.
Microballistic impact testing at strain rates greater than 106 s−1 shows that pure metals, including copper, gold and titanium, become stronger with increasing temperature.
We develop a low-temperature, damage-free process using van der Waals lamination to integrate multiple circuit tiers into a monolithic three-dimensional device, incorporating unique multi-tier functionality and resolving legacy issues with the layering technology.
Recovered cement paste can be reclinkered if used as a partial substitute for the lime–dolomite flux used in steel recycling, which can reduce waste and carbon emissions.
An antibody–drug conjugate that targets the pan-haematopoietic marker CD45 combined with transplanted stem cells engineered to be shielded from it can eradicate leukaemic cells while preserving haematopoiesis.
Structures of the kainate receptor GluK2 with and without concanavilin A and BPAM344 show how these ligands modulate channel activity and reveal the molecular basis of kainate receptor gating.
Structural analysis of the human choline and ethanolamine transporters FLVCR1 and FLVCR2 clarifies the mechanisms of transport, the conformational dynamics of these proteins and the disease-associated mutations that interfere with these processes.
Stretchable radio-frequency electronics based on a dielectro-elastic elastomer is demonstrated to be capable of completely maintaining operating frequencies unaffected by strain and shows superior electrical, mechanical and thermal properties compared with conventional stretchable substrate materials.
Cement can be reused by including it as a component of steel recycling. This opens the way to an industrial partnership that improves the use of materials and lowers carbon emissions — but only if waste resources are well managed.
Neuroscientists find that two distinct neural pathways are responsible for the addictive properties of the opioid fentanyl: one mediates reward, the other promotes the seeking of relief from symptoms of withdrawal.
An ambitious field trial in Zambia investigated why mosquitoes seem to find some people more appetizing than others. Plus, anxiety treatments tailored to young brains and the first ‘bilingual’ brain-reading device.
A phenomenon that affects the magnetic fields of rotating bodies could be involved in recurring changes in the Sun’s behaviour, which are related to a periodic flipping of its field. The proposal is a fresh take on this strange effect.
A simple design approach and predictive computational methods have spawned a pathway for making materials that could trap specific molecules — an ability needed for applications such as carbon capture.