![]() ![]() In the field of thermoelectric phenomena research, we aim at the construction of so-called spin-caloritronic components, which will open the way to master and extend current photodynamic and photothermal therapies. Other important topics are nanoelectronics, molecular electronics and nanodiagnostics, with a vision of the development of quantum cellular automats and new methods of controlling their electronic properties using self-organized layers. Advances in spintronics will fundamentally affect the current functioning of a society based on a whole new level of digital technology. ![]() One of our most advanced topics is spintronics, with the long-term goal of improving the performance of computers to the point that enables the realization of artificial neural networks. ![]() As part of basic research, the Division of Solid State Physics integrates thematically critical scientific disciplines and builds the unique analytical and technological background needed to successfully address the challenges identified for sustaining a prosperous society. A prerequisite for success is the full understanding of the related physical phenomena from macroscopic to the atomic scale. The decisive factor for achieving these needs is finding methods of targeted preparation of nanomaterials, their characterization and development of new technologies for their production. These needs and challenges include rapid and efficient work with data, including data storage, advanced medical diagnostics and therapy, detection and analysis of environmental processes, and sustainable energy production and storage methods. With its needs, modern society defines the main challenges related to solid-state physics and material research. ![]()
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