A.N.Nesmeyanov Institute of Organoelement Compounds of the Russian Academy of Sciences

Molecular Structure Research Center

Analytical chemistry Molecular design Magnetism

Head of Laboratory

Nelyubina, Yulia V

DSc in Chemistry

Publications

493

Citations

6 648

h-index

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Lab website

INEOS RAS Molecular Structure Research Center provides analytical services to scientific and other organizations.

The Center operates on the basis of the laboratory of the same name in cooperation with the Nuclear Magnetic Resonance Laboratory of INEOS RAS. The main activities of the Center are related to the analytical applications of modern physico-chemical methods of studying matter (nuclear magnetic resonance spectroscopy, X-ray diffraction, mass spectrometry, optical spectroscopy, microscopy, electrochemistry, etc.) and their use to create materials with specified properties.

NMR spectroscopy
X-ray diffraction analysis
Powder X-ray diffraction
UV-vis absorption spectroscopy
Microscopy
Electrochemistry
Synthesis
Manufacturing of molecular spintronics devices
Chromatography
Differential Scanning Calorimetry (DSC)
3D and 4D printing
Mass spectrometry

Yulia Nelyubina 🤝

Head of Laboratory

Research directions

Food Chemistry

Recently, we have been creating new materials for the food industry, including plant analogues of animal products, organic flavor additives obtained by fermentation, hydrocolloid composites and biodegradable functional materials for food packaging.

High-performance methods in chemistry

We are working on the adaptation of 3D printing methods and automation of chemical processes for screening products of combinatorial chemistry and (co)crystallization using X-ray diffraction.

Multicomponent crystalline materials

We create (including using 3D printing methods) new crystalline materials that contain various organic and inorganic components, and functional hybrid materials based on them for medicine, catalysis, energy storage, food quality control and substance recognition.

Synthetic chemistry

We synthesize (including by electrochemical methods) new organic ligands, complexes and organometallic compounds based on them as molecular materials for information storage and processing devices, molecular sensors and catalysts (including new generation catalysts for NMR signal amplification).

"Structure is a property"

We use modern physical methods, primarily X–ray diffraction (including precision studies of the electron density distribution) and NMR spectroscopy, to build composition–structure-properties correlations and create new molecular materials based on them for medical diagnostics, logic devices, sensors, displays, etc.

Molecular magnetism

We are developing experimental approaches to the search for new molecular magnetic materials using available physical methods, targeted design of such materials and the creation of molecular sensors and information storage and processing devices based on them.