Self-organization of complex structures: a matter of time
Researchers have developed a new strategy for manufacturing nanoscale structures in a time- and resource-efficient manner.
Jan 19th, 2022
Read moreResearchers have developed a new strategy for manufacturing nanoscale structures in a time- and resource-efficient manner.
Jan 19th, 2022
Read moreA new method can measure the electrical (re-)charging of boundary layers between very small, metallic particles and aqueous solutions and understand it at a molecular level.
Jan 19th, 2022
Read moreResearchers propose hetero-lattice intergrown (HLI) and robust MOF membranes for polyol upgrading in industry.
Jan 19th, 2022
Read moreScientists have developed new p-type (positive hole) near infrared (NIR) transparent conducting films with ultra-high conductivity, unveiling a new transparent conducting material.
Jan 19th, 2022
Read more6-axis nanopositioning system provides high force and ultra high precision to align the hexagonal mirror segments of the largest and most powerful scientific space telescope ever built.
Jan 18th, 2022
Read moreThe construction of a molecular rotor inside a nanostructured cage allows for the development of a tunable molecular device.
Jan 18th, 2022
Read moreResearchers are working to overcome challenges in order to bring wearable, electric, wound-healing devices to clinical practice.
Jan 18th, 2022
Read moreSpread out or bead up? A new process enables control over liquid-solid interfaces even with the most unlikely pairs of materials.
Jan 18th, 2022
Read moreResearchers have developed a single-step procedure to put single-crystal silicon under more strain than has been achieved before. The discovery, which has a patent pending, could be crucial to the future development of silicon photonics, which underpins the technologies behind the internet-of-things, and is currently constrained by the lack of cheap, efficient, and easily integrated optical emitters.
Jan 18th, 2022
Read moreResearchers are planning to create a quantum heat engine that operates at room temperature by using graphene nanoribbons.
Jan 18th, 2022
Read moreResearchers have opened new paths to islet transplantation by using nanoparticles to deliver immunosuppressive drug regimen.
Jan 17th, 2022
Read moreTiny gas bubbles could help reduce drag in small medical devices, scientists have found. Drag can lead to clogging and damage biological samples, so this discovery could pave the way to more robust devices.
Jan 17th, 2022
Read moreScientists have taken a key step in making quantum batteries a reality. They have successfully proved the concept of superabsorption, a crucial idea underpinning quantum batteries.
Jan 15th, 2022
Read moreResearchers present new nanovesicles capable of crossing biological barriers such as cell membranes, while maintaining their sensing capacity, which makes them attractive probes for intracellular detection of biomarkers.
Jan 14th, 2022
Read moreJust like explorers need maps, scientists require guides to better understand and advance new technology. A neuromorphic device has lacked such a guideline and created headaches for scientists trying to understand their operational mechanisms. That is until now after a research group created a map that provides rational design guidelines for neuromorphic devices, paving the way for advancements in brain-inspired computers.
Jan 14th, 2022
Read moreNew strategy uses electron equivalents to create the first rules for synthesizing low-symmetry colloidal crystals, including structures never found in nature.
Jan 13th, 2022
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