Events

The conference will present the state of the art in mathematical modelling in biomedicine including cardiovascular diseases, cancer modelling, mathematical oncology. Methods of modelling and mathematical analysis of the corresponding models will also be discussed.

A meeting of the International Expert Board (RUDN IEB) will be held at RUDN. The International Expert Board was created in 2016, to provide expert support for key management decisions within the framework of the implementation of the program for improving competitiveness (Project 5-100), choosing strategic directions for development, international positioning of the university and promoting the interests of RUDN University in the international academic environment.

The Russian Academy of Sciences (RAS), the V.A. Trapeznikov Institute of Control Sciences of RAS (ICS RAS, Russia, Moscow), the Peoples’ Friendship University of Russia (RUDN University, Russia, Moscow),the National Research Tomsk State University (NR TSU, Russia, Tomsk), and the Institute of Information and Communication Technologies of Bulgarian Academy of Sciences (Bulgaria, Sofia) jointly organize

Helen Karatza, Professor Emeritus of the Aristotle University of Thessaloniki, Department of Informatics (Greece), the Editorial Board member of international journals, author over 220 technical papers and book chapters including five papers that earned best paper awards at international conferences, senior member of IEEE, ACM and SCS will come to visit the RUDN University and to give the plenary talk at the 25th International Conference on Analytical & Stochastic Modelling Techniques & Applications ASMTA-2019 on the subject «Scheduling Complex Applications in Cloud Environments – Research Trends and Challenges» on September 23.

The scientific program includes plenary 50-minute lectures of invited, as well as sections in the following areas:

Prussian Blue type nanoparticles are exciting nano-objects that combine the advantages of molecule-based materials and nanochemistry. They are made by transition metal ions or lanthanides assembled through cyano-bridged ligand into nano-sized architectures of the general formula AxMyII[M’III(CN)6]z (where A is a monovalent cation, MII and M’III are transition metal ions or lanthanides). These nano-objects attracted a great deal of interest during the last ten years due to their specific molecule-based nature that is different compared to other inorganic nanoparticles. This lecture will provide a brief critical look on the recent advancement in this field of research focalising on the design of PB type nano-objects and their nanocomposites promising as nanoprobes for imaging, as therapeutic agents for photothermal therapy, as well as agents for Cs+ decontamination.

Coordination chemistry of lanthanide ions allows the tailored design of multifunctional ferroelectric molecule-based materials where the properties are gathered into a single molecular system. We investigate here, by using luminescent and magnetically anisotropic lanthanides ions assembled with an enantiopure antenna ligand, the synthesis of high temperature ferroelectric complexes having a high degree of functionality, combining Single-Molecule Magnet behavior, optical activity and lanthanide luminescence. Remarkably, these molecular systems behave as ferroelectrics up to a temperature above 180 K of the Curie temperature of BaTiO3, making it the highest temperature working molecular ferroelectric yet reported. Remarkably, investigation of the magnetoelectrical coupling at room temperature confirms their great potential as multiferroics.