Ryazan State University named after S. A. Esenin

Laboratory of Coordination Chemistry

Catalysis Organic Chemistry Synthesis

R-338B4-08CF2-FG86S

0000-0003-3158-3790

7005242568

Head of Laboratory

Gavrilov, Konstantin Nikolaevich

DSc in Chemistry, Professor

Publications

146

Citations

1 715

h-index

R-338B4-08CF2-FG86S

0000-0003-3158-3790

7005242568

Authorization required.

Lab website

The main direction of the laboratory's research is to study the coordination behavior and the use of chiral phosphorus-containing ligands with pronounced π-acidity of the phosphorus donor center in asymmetric catalysis. Being at the junction of several modern chemical disciplines - inorganic, organoelement chemistry and chemistry of catalytic processes, it provides the possibility of obtaining enantio-excess organic and organoelement compounds, including those with biological activity.

Catalysis
High-efficiency liquid chromatography (HPLC)
IR spectroscopy
Subtle organic synthesis
Asymmetric metal complex catalysis

Konstantin Gavrilov

Head of Laboratory

Sergey Zheglov

Head of Department

Ilya Chuchelkin

Senior Researcher

Vladislav Gavrilov

Senior Researcher

Alexey Shiryaev

Associate Professor

Andrew Lukankov

Research intern

Ilya Firsin

PhD student

Valeria Trunina

PhD student

Ekaterina Rudy

PhD student

Research directions

The study of coordination behavior and the use of hemilabile heterobidentate chiral ligands in asmmetric catalysis

1. Design and synthesis of hemilabile heterobidentate ligands 2. Comprehensive study of their coordination behavior with respect to transition metals 3. Study of the influence of ligand parameters and the type of its coordination on the activity and enantioselectivity of catalytic systems

Development of a convenient selective methodology for the formation of asymmetric catalytic systems based on palladium complexes with P*-chiral dialkylphosphites

• design and synthesis (without the use of phosphorus bases and trigalides) of bicycloamide phosphites (precursor ligands) and their dialkylphosphite derivatives as non-trivial, but at the same time affordable, modular and highly effective chirality inducers for asymmetric palladium catalysis processes; • development of an optimal strategy for the selective production of palladium complexes based on these ligands; • establishment of the structure of new compounds using modern methods of instrumental analysis and quantum chemical calculations; • ensuring the optimized use of the obtained ligands in the composition of in situ formed catalytic compositions, as well as individual complexes in asymmetric reactions of Pd-catalyzed allyl substitution.