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- tautomerism and dual reactivity;
- chemistry of unstable species;
- stereochemistry and conformational analysis;
- strategy and tactics for goal-directed synthesis;
- physico-chemical study of structure and reactivity of organic compounds.
- chemistry of unsaturated compounds;
- chemistry of carbenes and small cycles;
- study of homolytic reactions;
- chemistry of nitro compounds;
- chemistry of heterocyclic systems, in paticular nitrogen- and sulfur-containing heterocycles;
- chemistry of organoboranes and other organoelement compounds,
- synthesis at super high pressures;
- electrochemical organic synthesis;
- chemistry of heterochain polymers.
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- elementary stages of catalytic reactions, including quantum-chemical calculations;
- structure and properties of the catalyst surface;
- catalytic asymmetric synthesis;
- scientific bases for the preparation of new catalysts and prediction of the catalytic action;
- kinetic, physical and mathematical models for the calculation of industrial processes and reactors;
- catalytic processes for
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- oil and gas processing (paraffin isomerization, alkylation, dehydrotation, hydrocracing, aromatic alkylation, hydrogenation, disproportionation, oxydation, Fisher-Tropsch synthesis),
- basic and fine chemicals (selective oxidation, hydrogenation, alkylation),
- purification processes (DeNOx, VOCs, O2, COx removal), etc.
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