Projects 

2024

Grant of the Russian Science Foundation 24-23-00117 "Crystal chemical factors in the formation of structures of metal deposits"

2023

Grant of the Russian Science Foundation 23-73-01067 "High-performance theoretical search and synthesis of new promising sodium-conducting materials for solid-state metal-ion batteries"

The regional grant in the field of science and technology "Theoretical search, synthesis and experimental studies of new promising ion-conducting materials for electrochemical energy storage systems"

Grant of the Russian Science Foundation 23-23-00387 "Design of monoligand complexes using methods of machine analysis of crystal data"

2022

Extension of Grant of the Russian Science Foundation 19-73-10026 "Theory, methods of modeling and directional search for a new multivalent ionic conductors by crystallochemical analysis methods and quantum-mechanical modeling"

The regional grant in the field of science and technology "Directed search for new promising oxygen-ion conductors for solid oxide fuel cells"

The regional grant in the field of science and technology "Synthesis and study of the electrochemical properties of new zinc-containing materials with predicted ionic conductivity"

Grant of the Russian Science Foundation 22-13-00062 "Topological methods for the design of crystal structures and directed search for new superhard materials"

Grant of the Russian Science Foundation 22-23-00300 "Development of new porous materials based on three-periodic surfaces, theoretical and experimental study of their thermomechanical properties"

Grant of the Russian Science Foundation 22-23-00322 "Hybrid topological-quantum-mechanical approach to the design of high-entropy alloys"

Grant of the Russian Science Foundation 22-23-00355 "Directed search for new promising oxygen-ion conductors using new generation prediction methods"

Grant of the Russian Science Foundation 22-23-00506 "Development of methods for the search for promising proton-conducting materials based on metal-organic frameworks"

2021

Extension of Grant of the Russian Science Foundation 18-73-10116 “Methods of topological design of coordination polymers”

The regional grant in the field of science and technology "The search and identification of new ion-conducting materials for metal-ion batteries and solid oxide fuel cells"

Grant of the Russian Foundation for Basic Research 21-57-53003 "Development of a hybrid topological-quantum-mechanical method for predicting new inorganic electrodes"

2020

Grant of the Russian Foundation for Basic Research 20-13-50007 Topological methods of analysis and design of coordination polymers

Grant of the Russian Foundation for Basic Research 20-33-90018 Combined methods for predicting a new generation of ion-conducting materials: development and subsequent experimental testing

2019

Grant of the Russian Science Foundation 19-73-10026 "Theory, methods of modeling and directional search for a new multivalent ionic conductors by crystallochemical analysis methods and quantum-mechanical modeling"

Grant of the Russian Science Foundation 19-73-00156 "Relationships between physico-chemical properties of solvent and structure of polymorphic modifications of crystals"

Grant of the President of the Russian Federation MK-415.2019.3 Design concept for coordination polymers with core building units

2018

Grant of the Russian Foundation for Basic Research № 18-29-04010 “Modeling, design, synthesis and study of sorption properties of porous coordination polymers and materials based on them”

Grant of the Russian Science Foundation 18-73-10116 “Methods of topological design of coordination polymers”

Grant of the Russian Foundation for Basic Research for the project “Research of solid electrolytes by methods of quantum-mechanical modeling and topological analysis of electron density distribution: determining correlations between composition, structure and ion conductivity”

Grant of the Russian Foundation for Basic Research for the project “Information and analytical system for prediction of composition and properties of coordination polymers and metal-organic frameworks”

Grant of the Russian Foundation for Basic Research for the project “Development of hybrid topological and quantum-mechanical approach to structure modeling and prediction of intermetallic compounds”

2017

Grant of the Russian Foundation for Basic Research № 17-43-630619 “Theory of cluster assembling of chemical systems and its application for directed synthesis of zeolite-like microporous materials”

Grant of the Russian Foundation for Basic Research № 17-57-10001 “Theory and methods of combined topological-quantum-chemical prediction of mechanical anisotropy and flexibility of microporous molecular framework materials”

2016

Grant of the Russian Foundation for Basic Research for the project “Knowledge database on structure and physical properties of crystal coordination polymers”.

Extension of Mega grant of the Russian Federation Government № 14.В25.31.0005 “Methods of theoretical prediction of materials with targeted properties” (for two years).

Grant of the Russian Science Foundation (RSF) for the project “Hybrid topological-quantum-chemical methods for prediction of adsorption, catalytic, and sensor properties of microporous framework and low-dimensional materials.

2015

Grant of the Russian Foundation for Basic Research “Search for new cationic solid electrolytes and their research by the methods of crystallochemical analysis of structure and quantum-mechanical modeling”

2014

Grant of the Russian Foundation for Basic Research “Hybrid topological and quantum- mechanical approach to crystal structure modeling and directed search for new supersolids and porous materials”

2013

Mega grant of the Russian Federation Government № 14.В25.31.0005 “Methods of theoretical prediction of materials with targeted properties”

Grant of the Russian Foundation for Basic Research “Information and analytical system on composition and physical properties of crystalline substances and nanoparticles”.