Superelastic and shape memory functional properties of NiTi shape memory alloys are already utilized in medical devices, automotive and space industries, robotics and civil engineering applications.
The diamond is not only the hardest material but it has unique optical properties making it an ideal material for industrial purposes, such as lasers, quantum technologies or applications for biological detection.
Hydration of ions on surfaces is of great importance, for example, in corrosion, electrochemistry, or transport of ions in living organisms.
The new discovery not only allows a thousand times faster data storing, but it may also find applications in AI and artificial neural networks.
The use of the Proton Boron Capture Therapy to increase the effectiveness of cancer cells destruction in proton therapy has been experimentally proven.
A collaboration of scientists has made significant progress in imagining water molecules. This work opens the way for studying the internal structure and dynamics of ice or water on the surface of solids.
The value of this success is enhanced by the fact that the team succeeded in doing that without any external reputable scientist from a prestigious western institution “opening the door” into such a journal: the published paper originates exclusively from Czech authors.
Scientists will compile and integrate this key laser system with a central control system for a period of twelve months. After the completion, it will be the highest performed laser system on average in the world.
The three-year ASCIMAT project is aimed at improving scientific excellence and innovation capacity in the field of scintillation materials through targeted and coordinated cooperation with highly qualified partner facilities.
