The anti-odor potential of silver nanoparticles has resulted in the use of these particles in clothing. However, a part of these particles get disintegrated from the clothes during laundry. The laundry wastewater might finally reach the environment, probably posing hazard to aquatic organisms.
Nuclear magnetic resonance (NMR) is a robust technical tool adopted for medical imaging and for investigating the chemical structure of compounds and molecules. An innovative study conducted at Brown University demonstrates a method that assists in modifying NMR to analyze the physical characteristics of two-dimensional nanomaterials, thin films, and exotic states of matter.
Porous particles of silicate and calcium exhibit potential as building blocks for numerous applications like bone-tissue engineering, self-healing materials, drug delivery, ceramics, insulation, and construction materials according to Rice University engineers who decided to check out how well they perform at the nanoscale.
Chemists of Ural Federal University with colleagues from India proved the effectiveness of copper nanoparticles as a catalyst on the example of analysis of 48 organic synthesis reactions.
Researchers have positively visualized terahertz radiation, commonly referred as T-rays, using a crystal termed as mayenite (Ca12Al14O33). Their technique ingeniously utilizes the rattling motion caused by the vibration of oxygen ions within the cage-like structures of the crystal.
A technique for producing Europium (II) oxide nanoparticles has been devised by the Collaborative Research Centre CRC 1214 at the University of Konstanz. Europium (II) oxide, or EuO, nanoparticles are ferromagnetic semiconductors that find their use in data transport and data storage.
A group of researchers led by the University of California San Diego have for the first time detected nanoscale variations deep within hybrid perovskite crystals that could offer new understandings into developing economical and high-efficient solar cells.
An innovative and introductory method for converting ambient heat into motion in nanoscale devices has been devised by an international team of researchers.
According to Penn State materials researchers, desirable properties such as enhanced mechanical properties, increased electrical conductivity, information processing, or magnetism for memory storage may be possible because of a theoretical technique to manipulate grain boundaries in two-dimensional (2D) materials.
A new study by researchers at NASA and Binghamton University, State University of New York, could result in a substantial decrease in flight times.
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