The peculiar topological properties of some forms of matter have been researched for decades.
Tiny dressings that generate electricity in response to movement could accelerate wound healing and tissue regeneration.
A new stick-like, water-based device can convert energy from movement into electricity. The technology, which was reported in the journal Science and Technology of Advanced Materials, could be used to power portable devices, such as safety lights.
This new spin measuring device could help scientists - particularly in chemistry and biology - understand the structure and purpose of materials better.
Just some years ago, a resolution limit in optical microscopy that appeared essential was broken, which resulted in the award of the Nobel Prize in Chemistry in 2014.
In this study, the researchers utilized conductive atomic force microscopy (c-AFM) to investigate the potential of nanostructured and bimetallic copper-gold electrocatalysts for carbon-dioxide electroreduction.
By Hussain Ahmed
13 Mar 2023
Global semiconductor developer BluGlass Limited continues to grow its customer base, receiving two additional purchase orders for both its single-mode and multi-mode violet 405 nm and blue 450 nm gallium nitride (GaN) lasers in flexible form factors.
Global semiconductor developer BluGlass Limited has secured $10.2 million in commitments from international and Australian institutional and sophisticated investors via a strongly supported share placement at an issue price of $0.06 per share.
Caltech engineers have created a new material made of highly interconnected microscale knots in the latest advancement in nano- and micro-architected materials.
Catalysts made of only a few atoms exhibit great potential in the area of water treatment owing to their great efficiency. In a new study, scientists analyzed how to enhance the performance of these catalysts and make them feasible for practical applications.
Alloys that can return to their original structure after being deformed have a so-called shape memory. This phenomenon and the resulting forces are used in many mechanical actuating systems, for example in generators or hydraulic pumps.
Researchers from the Institute of Physics of the Chinese Academy of Sciences, together with collaborators from the University of Science and Technology of China, have revealed the formation of boron clusters with magic numbers on monolayer borophene and observed the evolution process from monolayer borophene with adsorbed boron clusters to bilayer borophene.
The amount of surface oxygen present in graphene materials is an important aspect in determining how successful they can be in killing bacteria—a breakthrough that might aid in developing safer and more efficient products to fight antimicrobial resistance.
New research discusses a liquid crystalline wet-spinning process as a means of producing polymer-carbon nanotube composite fibers that are highly oriented and possess superior modulus, strength, and electrical conductivity.
By Hussain Ahmed
7 Mar 2023
Recently, a team of MIT engineers devised an innovative method of purification that can significantly reduce the cost of the purification step using nanotechnology.
By Dr. Priyom Bose
7 Mar 2023