Imagine being able to measure your blood sugar levels, know if you've had too much to drink, and track your fatigue during a workout, all in one small device worn on your skin. Engineers developed a prototype of such a wearable that continuously monitors several health stats at once.
Scientists present a large step forward in the characterization of nanoparticles. They used a special microscopy method based on interfereometry to outperform existing instruments. One possible application of this technique may be to identify illnesses.
Researchers have have reported the synthesis process and biomedical applications of a novel nanomaterial for in vivo treatment of vasculopathy - a general term used to describe any disease affecting blood vessels. Through their innovative approach using rational design and synthesis strategies, the researchers developed intrinsically immunomodulatory and anti-inflammatory tantalum carbide MXene quantum dots. The team is confident that this new nanomaterial could reduce or even avoid the ...
Researchers have developed a material in which heat flow can be dynamically controlled by changing its thermal conductivity. The thermal conductivity is modulated by reversibly switching between a two-dimensional and a three-dimensional crystal structure in a solid solution of lead selenide and tin selenide, opening doors to potential thermal management applications.
