Materials Science

MIT researchers examining a 3D holographic model of relaxor ferroelectric atomic structure visualized via multislice electron ptychography.

MIT-led team uses multislice electron ptychography to map 3D structure of relaxor ferroelectrics

04 maggio 2026 Riportato dall'IA Immagine generata dall'IA Verificato

MIT researchers and collaborators have directly characterized the three-dimensional atomic and polar structure of a relaxor ferroelectric using a technique called multislice electron ptychography, reporting that key polarization features are smaller than leading simulations predicted—results that could help refine models used to design future sensing, computing and energy devices.

Hong Kong researchers develop ultra stainless steel for green hydrogen

A team at the University of Hong Kong has created a new stainless steel alloy that resists corrosion in seawater electrolysis. The material could replace expensive titanium components in hydrogen production systems.

Researchers create exotic quantum states with timed magnetic fields

05 maggio 2026 Riportato dall'IA

Scientists at California Polytechnic State University have discovered new forms of quantum matter by varying magnetic fields over time. The breakthrough, detailed in Physical Review B, shows that time-dependent control can produce stable quantum states without static equivalents. This could advance quantum computing by making systems more resistant to errors.

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Researchers unveil viciazites for cheaper carbon capture

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Researchers create an ‘atomic movie’ showing how atoms roam before a radiation-driven decay

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NYU physicists create sound-levitated time crystal breaking Newton's third law

Researchers discover contactless magnetic friction

Scientists at the University of Konstanz have identified a new type of sliding friction that occurs without physical contact, driven by magnetic interactions. This phenomenon breaks Amontons' law, a 300-year-old physics principle, by showing friction peaks at certain distances rather than increasing steadily with load. The findings appear in Nature Materials.

China's super microscope achieves neutron beam output milestone

11 marzo 2026 Riportato dall'IA

China's China Spallation Neutron Source (CSNS) has reached a significant milestone in its Phase II construction, with its first beamline—the neutron technology development station—successfully producing a neutron beam. This marks the completion of equipment development and installation for the beamline. Located in Dongguan, Guangdong province, the facility operates like a super microscope, using neutrons to examine materials and support breakthroughs in renewable energy, aerospace, and bioscience.

Scientists synthesize silicon-based aromatic molecule after 50 years

Chemists at Saarland University have created pentasilacyclopentadienide, a silicon analogue of a stable aromatic compound, ending decades of failed attempts. The breakthrough, published in Science, replaces carbon atoms with silicon in a five-atom ring structure. This achievement opens potential for new materials and catalysts in industry.

Scientists create atom-sized pores mimicking biological ion channels

19 febbraio 2026 Riportato dall'IA

Researchers at The University of Osaka have developed ultra-small pores in silicon nitride membranes that approach the scale of natural ion channels. These structures enable repeatable opening and closing through voltage-controlled chemical reactions. The advance could aid DNA sequencing and neuromorphic computing.

05 maggio 2026 09:37