Scientists prove Turing patterns, usually studied in living organisms and chemical systems, also manifest at the nanoscale in monoatomic bismuth layers.
Researchers celebrate the success of Active Targeting, a revolutionary innovation in the medical industry using biorobots to deliver targeted cordyceps extract to halt cancer with reduced side effects.
Engineers developed a thin, flexible strip that can be worn on a fingertip and generate small amounts of electricity when a person's finger sweats or presses on it.
Over the past years, graphene oxide membranes have been mainly studied for water desalination and dye separation. However, membranes have a wide range of applications such as the food industry.
With the help of a steady-state strong magnetic field experimental device, scientists constructed nanoscale borate bioactive glass, which can effectively reduce the biological toxicity of borate bioglass, improve the biocompatibility of the glass, and promote the effect of borate bioglass on skin repair.
Scientists achieve remarkable precision in measuring atomic displacements by combining electron microscopy with a technique borrowed from data science.
Researchers have developed a new way to control and shape optical singularities. The technique can be used to engineer singularities of many shapes, far beyond simple curved or straight lines.
When fluorescent dye molecules nestle perfectly together, something completely new is created: an excited state distributed over many molecules. Such collective excitations can be used in a variety of ways - for organic solar panels, in sensors, for ultrafast data transmission or in microscopy, for example.
The absorption of energy from laser light by free electrons in a liquid has been demonstrated for the first time. Until now, this process was observed only in the gas phase.