Nanotechnology
MIT-led team uses multislice electron ptychography to map 3D structure of relaxor ferroelectrics
Von KI berichtet Bild generiert von KI Fakten geprüft
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.
Researchers at EPFL have created the first chip-scale ultrafast laser that matches the performance of traditional tabletop femtosecond lasers. The device delivers pulses as short as 147 femtoseconds with energies of 1.05 nanojoules.
Von KI berichtet
Scientists at Brown University and the University of Michigan have created and stabilized a previously theoretical crystal phase by assembling custom silver nanoparticles. The breakthrough, published in Science, reveals details of metal crystal transformations and shows room-temperature quantum optical properties.
Researchers at EPFL have created a new membrane using lipid-coated nanopores that boosts the efficiency of blue energy production from mixing saltwater and freshwater. The innovation allows ions to pass through more smoothly, generating up to three times more power than existing technologies. This advance could make osmotic energy a more viable renewable source.
Von KI berichtet
Researchers at the University of Texas at Austin have observed a sequence of exotic magnetic phases in an ultrathin material, validating a theoretical model from the 1970s. The experiment involved cooling nickel phosphorus trisulfide to low temperatures, revealing swirling magnetic vortices and a subsequent ordered state. This discovery could inform future nanoscale magnetic technologies.
Researchers at Japan's RIKEN Center for Emergent Matter Science have pioneered a method to carve three-dimensional nanoscale devices from single crystals using focused ion beams. By shaping helical structures from a magnetic crystal, they created switchable diodes that direct electricity preferentially in one direction. This geometric approach could enable more efficient electronics.
Von KI berichtet
A team of scientists has developed a new method to manipulate quantum materials using excitons, bypassing the need for intense lasers. This approach, led by the Okinawa Institute of Science and Technology and Stanford University, achieves strong Floquet effects with far less energy, reducing the risk of damaging materials. The findings, published in Nature Physics, open pathways to advanced quantum devices.
Scientists observe atoms spinning backward in quantum experiment
Sonntag, 17. Mai 2026, 10:10 UhrNanoparticles reduced amyloid-β and improved cognition in an Alzheimer’s mouse model, researchers report
Mittwoch, 13. Mai 2026, 15:25 UhrScientists solve 100-year mystery of reinforced rubber
Dienstag, 28. April 2026, 22:06 UhrKAIST scientists visualize patchy charge density waves in quantum material
Mittwoch, 25. März 2026, 02:59 UhrResearchers create an ‘atomic movie’ showing how atoms roam before a radiation-driven decay
Montag, 02. März 2026, 14:35 UhrNYU scientists use light to control crystal formation
Sonntag, 01. März 2026, 09:17 UhrOregon State researchers report iron-based nanomaterial that eliminates breast-cancer tumors in mice
Donnerstag, 19. Februar 2026, 08:45 UhrScientists create atom-sized pores mimicking biological ion channels
Mittwoch, 18. Februar 2026, 16:12 UhrNorthwestern reengineers HPV vaccine to boost T cell attack on tumors
Donnerstag, 29. Januar 2026, 00:09 UhrResearchers develop nanoparticles to target disease proteins