Study reveals promising development in cancer-fighting nanotechnologies

May 20, 2024 (Nanowerk News) A new study conducted by the Wilhelm Lab at the University of Oklahoma examines a promising development in biomedical nanoengineering. Published in Advanced Materials ("Primary Human Breast Cancer-Associated Endothelial Cells Favor Interactions with Nanomedicines"), the study explores new findings on the transportation of cancer nanomedicines...

AI chips could get a sense of time

May 20, 2024 (Nanowerk News) Artificial neural networks may soon be able to process time-dependent information, such as audio and video data, more efficiently. The first memristor with a 'relaxation time' that can be tuned is reported in Nature Electronics ("Efficient data processing using tunable entropy-stabilized oxide memristors"), in a...

Breakthrough development that may facilitate the use of graphene nanoribbons in nanoelectronics

May 20, 2024 (Nanowerk News) An international collaborative study presented a new method for growing ultra-long and ultra-narrow strips of graphene, which exhibit semiconducting properties that can be harnessed by the nanoelectronics industry. The researchers believe that the development may have many potential technological applications, including advanced switching devices, spintronic...

Battery-free light emission powered by triboelectricity

May 20, 2024 (Nanowerk News) DGIST’s Dr. Jeong Soon-moon and the research team (Division of Energy & Environmental Technology) have collaborated with Dr. Lim Sung-jun (Division of Nanotechnology) and Prof. Kim Young-hoon (Department of Applied Chemistry, Kookmin University) to identify the principle of eco-friendly energy-based soft mechanoluminescent complex that emits...

Revolutionizing cancer treatment by intracellular protein delivery using hybrid nanotubes

May 20, 2024 (Nanowerk News) The intracellular delivery of proteins is an important technique for unveiling the cellular functions, protein complex structure, and therapeutics. However, the conventional delivery methods have several limitations. To address this, researchers from Japan have developed a novel hybrid nanotube (HyNT) stamp system that can deliver...

Nanotechnology Now – Press Release: Virginia Tech physicists propose path to faster, more flexible robots: Virginia Tech physicists revealed a microscopic phenomenon that could greatly improve the performance of soft devices, such as agile flexible robots or microscopic capsules for drug delivery

Home > Press > Virginia Tech physicists propose path to faster, more flexible robots: Virginia Tech physicists revealed a microscopic phenomenon that could greatly improve the performance of soft devices, such as agile flexible robots or microscopic capsules for drug delivery Virginia Tech physicist C. Nadir Kaplan (at left) and...