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24 notícias encontradas para "mechanical"
OpenAI’s first hardware device is reportedly a screenless speaker that can move
OpenAI’s first hardware device is reportedly a screenless speaker that can move
The device is weirdly described as involving "mechanical elements that can move on their own" and the Bloomberg report includes the detail that the device is designed to "feel like a companion and become a physical manifestation of OpenAI’s ChatGPT."
Foto: Landiva  Weber / Pexels
Lipids and DNA nanostructures independently control artificial cell mechanics
What if the mechanical properties of a cell could be programmed like the components of a machine? Researchers at the University of Tokyo have discovered that two fundamental modes of cellular deformation—stretching and bending—can be independently controlled using different molec
Foto: Google DeepMind / Pexels
Crystal-design principle reveals how competing molecular forces control structure, color a
Organic molecular crystals can respond to external stimuli such as heat, light, and mechanical force, making them attractive candidates for next-generation functional materials. However, predicting how multiple intermolecular interactions cooperate or compete to govern crystal be
Foto: Valter Zhara / Pexels
New bioelectronic microdevices enable remote cell stimulation using ultrasound
The Universitat Autònoma de Barcelona (UAB) and the Institute of Microelectronics of Barcelona (IMB-CNM-CSIC) have developed a new generation of wireless piezoelectric microdevices capable of electrically stimulating living cells at an individual level. The study, recently publis
Foto: Nicolas  Foster / Pexels
Ultrafast scanning tunneling microscopy reaches the quantum mechanical space-time limit fo
Werner Heisenberg's famous uncertainty principle describes one of the most intriguing features of quantum physics: certain pairs of physical quantities describing a particle, such as position and momentum, cannot simultaneously be determined with arbitrary precision—not because o
Unexpected discovery yields new graphene oxide production method
Researchers in the Texas A&M University J. Mike Walker '66 Department of Mechanical Engineering have developed a new method for producing graphene oxide, a high-value carbon nanomaterial used in batteries, electronics and advanced manufacturing.
Foto: Aphiwat  chuangchoem / Pexels
New biobased polymers exhibit excellent tensile properties beyond polyolefins
The research group of Professor Kotohiro Nomura, Tokyo Metropolitan University, in cooperation with the research groups of Senior Researcher Hiroshi Hirano and Director Seiji Higashi of the Osaka Research Institute of Industrial Science and Technology, and Associate Professor Hir
'Check your ingredients': A new blueprint for using Fermi's 'Golden Rule'
Underpinning much of modern technology, from smartphones to scanning tunneling microscopes to particle colliders, is Fermi's Golden Rule. Named for 20th-century Italian American physicist Enrico Fermi (but actually discovered by British physicist Paul Dirac), the rule is a formul
Self‑building molecular rings bring next‑generation drug delivery and smart materials clos
Self‑building molecular rings bring next‑generation drug delivery and smart materials clos
Rotaxanes are dumbbell-shaped mechanically interlocked molecules in which one or more ring-shaped molecules are threaded through a linear segment, known as the axle. To keep the ring from sliding off, two bulky groups, sometimes called stoppers, are added to the ends of the axle.
Chitosan-based hydrogel membranes as transparent biomaterials for skin regeneration
Chitosan-based hydrogel membranes as transparent biomaterials for skin regeneration
IMDEA Materials Institute has developed mechanically tunable hydrogel membranes that closely mimic the mechanical environment of human skin while remaining highly biocompatible, representing an improved platform for skin tissue engineering and regenerative medicine.
Shear loading reveals sixfold damage growth around stiff particles in aluminum alloy
Shear loading reveals sixfold damage growth around stiff particles in aluminum alloy
The resistance of materials to mechanical loads is a decisive factor in component safety, such as in aircraft. Working as part of an international team, researchers from the Karlsruhe Institute of Technology (KIT) have found a previously unknown damage mechanism in metals: Contam
Scientists discover why peach fuzz can suddenly make you itch
Scientists discover why peach fuzz can suddenly make you itch
A newly discovered network of fine hairs and specialized nerve cells appears to form a dedicated system for sensing mechanical itch, offering fresh insight into why chronic itching occurs. Because humans show signs of having the same pathway, the research could pave the way for m