Rewritable DNA hard drive enables centuries-long data storage

In 2025, scientists revived the cassette tape using DNA to store vast amounts of data, far surpassing traditional versions. The innovation, developed in China, can hold every song ever recorded on just 100 meters of tape. Researchers aim to bring the technology to market within five years.

21 febbraio 2026 Riportato dall'IA

Microsoft has introduced a new glass-based storage technology designed to preserve data for up to 10,000 years. The innovation uses glass discs that appear promising in theory but face significant practical challenges. Writing data to a full drive could take weeks, raising questions about its real-world viability.

A suite of recent studies in American Chemical Society journals describes two‑year‑old brain organoids with measurable activity, a wearable electrospinning glove for on‑site wound patches, an edible coating from the Brazilian “wolf apple” that kept baby carrots fresh for up to 15 days at room temperature, and microplastics detected in post‑mortem human retinas.

11 marzo 2026 Riportato dall'IA

Australia-based start-up Cortical Labs has announced plans to construct two data centres using neuron-filled chips. The facilities in Melbourne and Singapore will house its CL1 biological computers, which have demonstrated the ability to play video games like Doom. The initiative aims to scale up cloud-based brain-computing services while reducing energy consumption.

A Rutgers University chemist has developed a new type of plastic that mimics natural polymers to break down on demand, potentially reducing environmental pollution. Inspired by plastic waste during a hike, Yuwei Gu's team engineered materials that degrade under everyday conditions without harsh treatments. The breakthrough, detailed in Nature Chemistry, allows precise control over breakdown times from days to years.

23 marzo 2026 Riportato dall'IA

Scientists have produced the first living synthetic bacterial cells by transplanting a synthetic genome into bacteria whose own genomes were destroyed. The team at the J. Craig Venter Institute calls these revived cells 'zombie cells'. The method addresses challenges in synthetic biology by ensuring control over the new genome.