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A technique for embedding fibres with semiconductor devices produces defect-free strands that are hundreds of metres long. Garments woven with these threads offer a tantalizing glimpse of the wearable electronics of the future.
Small groups of mobile neutral atoms have been manipulated with extraordinary control to form ‘logical’ quantum bits. These qubits can perform quantum computations more reliably than can individual atoms.
Measurements of groundwater levels in 170,000 wells reveal the global extent of groundwater decline. But the data also show that such depletion is not inevitable in a changing climate, providing hope for a resilient water future.
Millions of tonnes of ‘red mud’, a hazardous waste of aluminium production, are generated annually. A potentially sustainable process for treating this mud shows that it could become a source of iron for making steel.
Self-assembling DNA can process information, but the computations have been limited to digital algorithms. A self-assembling DNA system has now been designed to perform complex pattern recognition.
A branch of computer science known as genetic programming has been given a boost with the application of large language models that are trained on the combined intuition of the world’s programmers.
LINE-1 DNA elements self-duplicate, inserting the copy into new regions of the genome — a key process in chromosome evolution. Structures of the machinery that performs this process in humans are now reported.
GPS data reveal that young people encounter fewer individuals from diverse groups than do adults. The isolation of young people is exacerbated in larger cities, and for those living in poverty.
Materials that adhere tightly to human tissues can promote healing and boost the sensitivity of biomedical diagnostic devices. An ‘evolving’ gel has been made that synergizes two strategies for forming interfaces with tissue.
DNA in the cytoplasm can be a sign of abnormalities such as viral infections or cancer. A protein with a role in DNA-damage response was unexpectedly found to activate defences against the threats indicated by cytoplasmic DNA.
Ultrathin materials have long been touted as a solution to the problems faced by the ever-growing semiconductor industry. Evidence that 3D chips can be built from 2D semiconductors suggests that the hype was justified.
Once a plant recognizes a pathogen, part of its defence strategy is to withhold iron. The mechanism involves suppression of root acquisition of iron by degrading a molecule that activates the iron-uptake pathway.
Analysis of a large, varied data set reveals that snow cover in the Northern Hemisphere has undergone marked changes in the past four decades. Evidence that humans caused the shift suggests that snow loss will accelerate in the future.
An exploration of more than 1,600 ancient Eurasian genomes suggests that genetic changes that increase autoimmune-disease risk in modern Europeans could have protected ancient Europeans from pathogens.
The integration of non-silicon semiconductors into systems on chips is needed for advanced power and sensing technologies. A semiconducting graphene ‘buffer’ layer grown on silicon carbide is a step on this path.