Apr 10, 2022 (Nanowerk Spotlight) We’ve spent a lot of time recently researching and writing the articles for our Smartworlder section here on Nanowerk – about cryptocurrencies, explaining blockchain, and many other aspects of smart technologies – for instance non-fungible tokens (NFTs). So, we thought: Why not go all the...
Nanotechnology Now – Press Release: ‘Frustrated’ nanomagnets order themselves through disorder: Interactions between alternating layers of exotic, 2D material create ‘entropy-driven order’ in a structured system of magnets at equilibrium
Home > Press > 'Frustrated' nanomagnets order themselves through disorder: Interactions between alternating layers of exotic, 2D material create 'entropy-driven order' in a structured system of magnets at equilibrium Extremely small arrays of magnets, known as tetris spin ice (shown here), can order themselves by increasing their disorder. CREDIT ...
Nanotechnology Now – Press Release: Nanomedicine for brain cancer
Home > Press > Nanomedicine for brain cancerAbstract:Innovation Center of NanoMedicine (Director General: Prof. Kazunori Kataoka) has announced that Dr. Sabina Quader et al. published a review article focusing on the recent nanomedicines for brain cancers on Advanced Drug Delivery Review in this March. Nanomedicine for brain cancer Kawasaki, Japan...
Nanotechnology Now – Press Release: Development of low-power and high-efficiency artificial sensory neurons: 3T-OTS device to simulate the efficient information processing method of the human brain. A green light for the development of sensor-AI combined next-generation artificial intelligence to be used in life a
Home > Press > Development of low-power and high-efficiency artificial sensory neurons: 3T-OTS device to simulate the efficient information processing method of the human brain. A green light for the development of sensor-AI combined next-generation artificial intelligence to be used in life a Distinguishing COVID-19 infection through image learning of...
Nanotechnology Now – Press Release: Faster, more efficient nanodevice to filter proton and alkaline metal ions: Monash University researchers have developed a faster, more efficient nanodevice to filter proton and alkaline metal ions which will help design next-generation membranes for clean energy technology, conv
Home > Press > Faster, more efficient nanodevice to filter proton and alkaline metal ions: Monash University researchers have developed a faster, more efficient nanodevice to filter proton and alkaline metal ions which will help design next-generation membranes for clean energy technology, conv Ultrafast rectifying counter directional transport of cations ...