A special form of light made using an ancient Namibian gemstone could be the key to new light-based quantum computers, which could solve long-held scientific mysteries, according to new research led by the University of St Andrews.
Apr 15, 2022
Synthetic dyes are utilized in a wide range of industries and are a major source of pollution in bodies of water. These colors are not only hazardous, but they also last for a long period in the environment without degrading. Adsorption — a proces...
Apr 15, 2022
Photocatalyst made using a combination of titanium dioxide (TiO2) and copper oxide (CuxO) nanoclusters inactivates various variant types of novel coronavirus SARS-CoV-2. Scientists in Tokyo Institute of Technology, Nara Medical University and Kana...
Apr 15, 2022
Innovation Center of NanoMedicine (Center Director: Prof. Kazunori Kataoka) has announced that Prof. Satoshi Uchida (Principal Research Scientist), who is also Associated Professor of the Kyoto Prefec...
Apr 15, 2022
Synthetic dyes are used across a wide variety of industries and constitute a serious concern when it comes to water pollution. These dyes are not only toxic, but they also persist in the environment f...
Apr 15, 2022
In a discovery that could speed research into next-generation electronics and LED devices, a University of Michigan research team has developed the first reliable, scalable method for growing single l...
Apr 15, 2022
Organic aerosols such as those released in cooking may stay in the atmosphere for several days, because of nanostructures formed by fatty acids as they are released into the air.
Apr 15, 2022
Photocatalyst made using a combination of titanium dioxide (TiO2) and copper oxide (CuxO) nanoclusters inactivates various variant types of novel coronavirus SARS-CoV-2. Scientists in Nara Medical Uni...
Apr 15, 2022
With their superior properties, topological qubits could help achieve a breakthrough in the development of a quantum computer designed for universal applications. So far, no one has yet succeeded in u...
Apr 15, 2022
A discovery that could speed research into next-generation electronics and LED devices, a University of Michigan research team has developed the first reliable, scalable method for growing single layers of hexagonal boron nitride on graphene.
Apr 15, 2022
