A.E. Arbuzov Institute of Organic and Physical Chemistry of the Kazan Scientific Center of the Russian Academy of Sciences

Laboratory of Highly Organized Environments

Colloidal chemistry Supramolecular chemistry Nanotechnology

Head of Laboratory

Zakharova, Lucia Ya

DSc in Chemistry, Professor

CoLab Scopus

Publications

376

Citations

4598

h-index

Publications

388

Citations

5024

h-index

Authorization required.

Lab website

We are in the Telegram: https://t.me/iopc_lab_VOS

The main scientific direction of the VOS laboratory, which is headed by Doctor of Chemical Sciences, Professor Zakharova Lucia Yarullovna, is the design of multifunctional nanosystems. The research activities of the laboratory team are interdisciplinary in nature and focus on solving a number of scientific problems related to:

therapy of oncological and neurodegenerative diseases, treatment of acute poisoning with organophosphorus compounds (biomedical direction);

Development of pesticide compositions (agricultural topics);

by micellar catalysis of nucleophilic substitution reactions in phosphorus acid esters. The main objects of research are cationic surfactants (surfactants) and calixarenes.

Spectrophotometry
Fluorimetry
Measurement of the properties of surfactants (surface tension of solutions, critical concentration of micelle formation, wetting angle, Gibbs free energy, density of solutions, density of solids)
Dynamic light scattering (DLS)

Lucia Zakharova

Head of Laboratory

Ruslan Kashapov

Senior Researcher

Elmira Vasilieva

Senior Researcher

Gulnara Gaynanova

Senior Researcher

Elena Zhilytsova

Senior Researcher

Denis Kuznetsov

Researcher

Darya Kuznetsova

Researcher

Nadezda Kashapova 🤝

Researcher

Rushana Kushnazarova

Junior researcher

Yuliya Razuvayeva

Junior researcher

Leysan Vasilyeva

Junior researcher

Taliya Karimova

Junior researcher

Aleksandr Markelov

Junior researcher

Dmitriy Bekrenev

Junior researcher

Roman Babkin

Junior researcher

Elvira Romanova

Research assistant

Maria Grigoriva

Research assistant

Research directions

Creation of supramolecular catalytic systems

The traditional scientific direction of the laboratory is the creation of supramolecular catalytic systems by self-organization of amphiphilic compounds for the decomposition of toxic esters of phosphorus acids, acetylcholinesterase inhibitors. The formed information base makes it possible to develop effective nanoreactors based on cationic surfactants, polymers, macrocycles and metal ions, providing a catalytic effect of up to six or more orders of magnitude, specificity of action and manufacturability of the process due to the combined contribution of micellar and homogeneous catalysis factors, as well as the immobilization of nanoreactors on a polymer or mineral matrix.

Construction of multifunctional nanosystems

The main scientific direction of the laboratory of Highly Organized media is the construction of multifunctional nanosystems by using the basic principle of supramolecular chemistry “bottom–up”: non-covalent controlled self-assembly of amphiphilic compounds, polymers and metal ions. Rational selection of building blocks makes it possible to create supramolecular systems of a new generation, of a given size and morphology, with controlled properties, the secondary (supramolecular) structure of which provides a high level of intelligence of developments, primarily the ability to adjust the properties of systems under the influence of external impulses.

Publications and patents

Self-assembly strategy for the design of soft nanocontainers with controlled properties

Mendeleev Communications (Q3), 2016, Citations: 63

Self-Assembly of Amphiphilic Compounds as a Versatile Tool for Construction of Nanoscale Drug Carriers

International Journal of Molecular Sciences (Q1), 2020, Citations: 57

Supramolecular systems based on gemini surfactants for enhancing solubility of spectral probes and drugs in aqueous solution

Colloids and Surfaces A: Physicochemical and Engineering Aspects (Q1), 2016, Citations: 40

Self-Assembling Drug Formulations with Tunable Permeability and Biodegradability

Molecules (Q1), 2021, Citations: 30

Niosomes modified with cationic surfactants to increase the bioavailability and stability of indomethacin

Russian Chemical Bulletin (Q3), 2021, Citations: 13

Micellar nanocontainers based on cationic surfactants with a pyrrolidinium head group for increasing drug bioavailability

Russian Chemical Bulletin (Q3), 2021, Citations: 12

By date By citations

Супрамолекулярные наноконтейнеры для комплексного решения проблем, связанных с использованием и накоплением экотоксикантов

2023 — 2026

| Васильева Эльмира Альбертовна

Разработка супрамолекулярных систем биомедицинского назначения с использованием каликс[4]резорцинов и (био)полимеров

2022 — 2025

| Кашапов Руслан Равилевич

Формирование высокоорганизованных систем на основе новых амфифильных соединений и природных молекул, обладающих биомедицинским потенциалом

2021 — 2023

| Кузнецова Дарья Александровна

Разработка супрамолекулярных стратегий для создания липидных и гибридных наноконтейнеров с функциями таргетности и способностью преодолевать биологические барьеры с целью увеличения эффективности лекарственных средств

2019 — 2022

| Захарова Люция Ярулловна

Lab address

Казань, ул. Академика Арбузова, д. 8

Authorization required.