[EN] Лаборатории

Stankovic Dalibor Miodrag

Contract number

075-15-2022-1135

Time span of the project

2022-2024

Laboratory's website

As of 01.12.2023

Number of staff members

scientific publications

Objects of intellectual property

Name of the project:

Innovations for air and water purification, carbon footprint reduction: nanomaterials and nanocomposites, photocatalytic and electrochemical approaches

Goals of project:

Researching the impact of the morphology and size of particles of different nanomaterials based on titanium dioxide as well of the structure of composites (nanomaterial @ carbon-containing nanomaterials) on the efficiency of the degradation of sewage water and air contaminants with the use of the photocatalytic and photoelectrochemical methods.

Project objective:

The development of a methodology for the creation and manufacturing of electrodes that are based on a composite of nanostructured particles for the electrochemical destruction of of organic contamination in water;
The development of a methodology for the creation manufacturing of samples of new functional complexes based on the nanodimensional anatase and carbon nitride for the photocatalytic decomposition of organic contamination in water and in air;
The development of a methodology for the creation and manufacturing of samples of coatings with controlled properties on the bases of microporous silicon and titanium oxides, the research of their disinfecting properties., the capability to purify air and water from toxic gases and aerosols.

Scientific results:

New metal oxide materials have been formed for use in electrochemical sensors for the determination of biologically active substances and organic pollutants.
A general technique has been developed for the production of electroactive materials for the electrocatalytic decomposition of difficult-to-oxidize organic pollutants.
A method has been developed for the production of photoactive composite materials based on poly (triazine imide) for photoinitiated organic reactions of high selectivity.

Organizational and infrastructural changes:

A new structural unit has been formed: the scientific research Laboratory of Environmental Problems of Post-industrial Agglomeration, which includes a number of rooms equipped for the development of new materials, the study of their physico-chemical, structural and functional properties. Ulimately, the materials and techniques being formed are aimed at developing new methods for detecting, monitoring pollution and purifying water and air.

Education and personnel occupational retraining:

Two members of the research team, postgraduates A.D. Abrahamyan and M.S. Golovin, were sent to Belgrade for an internship program "Printed electrodes: manufacturing and application"at the University of Belgrade. The program volume lasted 144 hours and included theoretical and practical classes, as well as laboratory work.

8 members of the research team completed the advanced training program: Methods for identifying and evaluating key competencies for the implementation of scientific and technological projects" with a volume of 16 hours. cleaning of water and air.

Cooperation:

Institute of Solid State Chemistry of the Ural Branch of the Russian Academy of Sciences
Institute of Microstructure Physics of the Russian Academy of Sciences .
Frumkin Institute of Physical Chemistry and Electrochemistry.
University of Belgrade.

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Sara Knežević, Miloš Ognjanović, Vesna Stanković, Milena Zlatanova, Andrijana Nešić, Marija Gavrović-Jankulović, Dalibor Stanković

La(OH)3 Multi‐Walled Carbon Nanotube/Carbon Paste‐Based Sensing Approach for the Detection of Uric Acid—A Product of Environmentally Stressed Cells // Biosensors - 2022, 9 (12). DOI:10.3390/bios12090705

Elena Korina, Anton Abramyan,Oleg Bol’shakov,Vyacheslav V. Avdin, Sladjana Savi´c, Dragan Manojlovi´c, Vesna Stankovi´c,Dalibor M. Stankovi´c

Microspherical Titanium-Phosphorus Double Oxide:Hierarchical Structure Development for Sensing Applications// Sensors 2023, 23 (2) DOI:10.3390/s23020933

Roman Morozov, Dalibor Stanković, Viacheslav Avdin, Dmitri Zherebtsov, Mikhail Romashov, Anastasia Selezneva, Daniil Uchaev, Anatoly Senin, Alexander Chernukha

The Effect of Rare-Earth Elements on the Morphological Aspect of Borate and Electrocatalytic Sensing of Biological Compounds// Biosensors 2023, 13 (10) DOI:10.3390/bios13100901

E. Korina, A. Karaberova, O. Bol’shakov, M. Golovin, M. Kuznetsov, D. Stankovi´c.

Zero-waste preparation of mixed oxides for submicromolar sensing of Bentazone pesticide // Environmental Pollution – Volume 345 (2024). https://www.sciencedirect.com/science/article/pii/S0269749124002082?via%3Dihub

E. Korina, A. Karaberova, O. Bol’shakov, E. Bulatova, M. Golovin, A. Abramyan, D. M. Stanković.

Enhancing Adrenaline Sensing with Lanthanum Cuprate: A Promising Approach for a Novel Sensor // Journal of The Electrochemical Society, 2024. DOI 10.1149/1945-7111/ad1ecb

Patent for invention No. 2797643 "Formaldehyde gas analyzer"

Authors: Krupnova T.G., Rakova O.V. Registration date: 06/07/2023

Industrial design No. 135514 "Device for cleaning atmospheric air "Smart tree"

Authors: Krupnova T.G., Rakova O.V., Teterina E.V. Registration date: 02/22/2023

Hosting organization	Field of studies	City	Invited researcher	Time span of the project
Research Laboratory of Food and Industrial Biotechnology North-Caucasus Federal University	Environmental and industrial biotechnologies	Stavropol	Poklar Ulrih Nataša Slovenia	2022-2024
Laboratory for Molecular Microbiology Peter the Great St.Petersburg Polytechnic University - (SPbPU)	Environmental and industrial biotechnologies	St. Petersburg	Severinov Konstantin Viktorovich USA, Russia	2013-2017

Laboratory of the Environmental Problems of Post-industrial Agglomeration