The challenge of fabricating nanowires directly on silicon substrates for the creation of the next generation of electronics has finally been solved by researchers from Tokyo Tech. Next-generation spintronics will lead to better memory storage mec...
Nov 9, 2022
Technology developed by researchers at the Indiana University School of Medicine that can change skin tissue into blood vessels and nerve cells has also shown promise as a treatment for traumatic muscle loss.
Nov 9, 2022
Technology that can change skin tissue into blood vessels and nerve cells also shows promise as a treatment for traumatic muscle loss.
Nov 9, 2022
How can a drug be delivered exactly where it is needed, while limiting the risk of side effects? The use of nanoparticles to encapsulate a drug to protect it and the body until it reaches its point of action is being increasingly studied. However,...
Nov 9, 2022
Technology that can change skin tissue into blood vessels and nerve cells has also shown promise as a treatment for traumatic muscle loss.
Nov 9, 2022
A group of scientists from Nagoya University in Japan used a novel combination of technologies to investigate the principles of light–matter interaction in nanomaterials at the lowest and fastest levels.
Nov 9, 2022
Piran Kidambi, assistant professor of chemical and biomolecular engineering, recently had two papers appear in ACS Applied Materials and Interfaces and ACS Nano that respectively focus on a new approach to filter nanoparticles and explore ways to ...
Nov 9, 2022
Graphene Manufacturing Group (GMG) has announced a "bought deal" placement for gross proceeds of AUD$5,002,250 (around USD$3,250,000). Eight Capital will serve as lead underwriter and sole bookrunner, together with a syndicate of underwr...
Nov 9, 2022
The challenge of fabricating nanowires directly on silicon substrates for the creation of the next generation of electronics has finally been solved by researchers from Tokyo Tech. Next-generation spintronics will lead to better memory storage mec...
Nov 9, 2022
Scientists succeeded in developing a fully biodegradable nanoparticle capable of delivering a new anti-inflammatory drug directly into macrophages - the cells where uncontrolled inflammatory reactions are triggered - ensuring its effectiveness.
Nov 9, 2022
