Engineered living materials achieve reconfigurable growth
Inspired by morphogenesis, researchers create a reconfigurable living material from magnetic microparticles, yeast cells, and hydrogels. Additive biomanufacturing takes a leap forward.
Subscribe to our Nanotechnology Spotlight feed
Inspired by morphogenesis, researchers create a reconfigurable living material from magnetic microparticles, yeast cells, and hydrogels. Additive biomanufacturing takes a leap forward.
Researchers pioneer smart honeycombs by stacking and morphing laser-induced graphene layers, enabling innovative aerospace materials with integrated responsiveness to flight stresses like excessive heat, turbulence or ice buildup.
Machine learning methods and data science can uncover hidden patterns in nanoparticle synthesis conditions and property outcomes.
Researchers developed an innovative biomimetic technique enabling swift electrostatic assembly of functional nanoparticle monolayers across entire silicon wafers within seconds, over 100-1000 times faster than previous methods.
AI vision may become faster cheaper and more human-like with new perovskite synapses These mimic the retina's image processing for incredible efficiency.
Researchers develop a technique to reliably grow high quality, wafer-scale sheets of promising 2D materials like graphene and boron nitride directly onto the non-conductive surfaces crucial for modern electronics manufacturing.
Cutting-edge research harnesses butterfly mating behaviors to create a groundbreaking visuochemical integration platform. This bio-inspired hardware, merging visual and chemical data, paves the way for advanced multisensory decision-making in artificial intelligence.
Researchers have developed a low-temperature plasma method to produce mesoporous metal oxides, overcoming challenges that have limited integration in flexible electronics.