Project of Acting Associate Professor Ayymkul A. Markhabaeva "Development of technological foundations for the creation of nanostructured materials that are promising for energy storage and photoelectrochemical devices" won grant funding for 2021-2023 within the framework of the competition for young scientists

The successful launch of the Al-Farabi -2 nanosatellite (CubeSat 1U standard) from the Vandenberg military complex (California) took place. Our Al-Farabi -2 was among 64 satellites, of which 49 were nanosatellites, 15 microsatellites, launched by the Ilon Mask’s company SpaceX. This mission involved 17 countries: USA, Australia, Italy, Netherlands, Finland, South Korea, Switzerland, United Kingdom, Germany, Jordan, Kazakhstan, Thailand, Poland, Canada, Brazil and India. In the photo: the rector of KazNU G. M. Mutanov and the team of our department, who participated in the development of Al-Farabi -2

№

Project name, state registration number, manager

Order

Period

Expected scientific and practical results

1

Structure and electronic properties of nanoscale films of metal-modified chalcogenide semiconductors with phase memory in glass-crystal states, # АР05133499. Head: physics doctor, prof. Oleg Yu. Prikhod’ko

Grant funding for research Г 2018

2018-2020

Will be developed: Technologies for producing nanoscale Ag-impurity-modified Ge₂Sb₂Te₅ films using high-frequency ion-plasma magnetron sputtering and studying their structure in the amorphous and crystalline state during the glass-to-glass phase transition

2

Obtaining nanostructured composite materials based on films of titanium dioxide and metal nanoparticles and the study of their structure and electronic properties, AP05132897. Head: physics doctor, prof. Oleg Yu. Prikhod’ko

Grant funding for research Г 2018

2018-2020

Will be developed: Technologies for the production of film nanocomposite materials based on films of titanium dioxide and silver nanoparticles (Ag-TiO₂) using high-frequency ion-plasma sputtering and the study of their structure

3

Development of plasma-chemical technology for the synthesis of silicon carbide nanostructures, AP05132865. Head: physics doctor, prof. Bakhodyr A. Aliyev                                                                          AP05132865

Grant funding for research Г 2018

2018-2020

A pilot plant for the production of silicon carbide nanostructures will be assembled, technologies for producing metal clusters and technological regimes will be developed

4

Разработка технологии создания защитных покрытий на основе функционализированных графеновых наноструктур и исследование их свойств, АР05130413. Head: physics doctor, prof. Arkadiï M. Il’in

Grant funding for research Г 2018

2018-2020

The effect of graphene nanostructures, defective graphene nanostructures, discontinuities in the protective coating on the material protection efficiency will be established, as well as the technology for the production of graphene nanostructures using different methods

5

Creation of new composite materials based on carbon media with platinum group nanoparticles, AP05131495. Head: physics doctor, prof. Alexandr P. Ryaguzov

Grant funding for research Г 2018

2018-2020

The work on identifying the conditions for the synthesis of palladium-modified DLC and graphite-like films by nanoparticles was carried out for the first time using a direct current magnetron ion-plasma method. The experience gained in the synthesis and the results on the structure and their electronic properties will allow a better understanding of the interaction of the metal nanocluster of the platinum group not the carbide-forming element with the carbon matrix

6

Formation and stabilization of effective thin-layer perovskite solar cells with a heterojunction invert structure, AP05130083. Head: physics doctor, prof. Toktar I. Taurbayev

Grant funding for research Г 2018

2018-2020

Will be developed: Technologies to manufacture a perovskite solar cell with enhanced thermal stability and a service life, by replacing methyl ammonium iodide with iodide forms and using inorganic materials as hole and electronic layers, as well as using invert structure

7

Information entropy technologies of multichannel telecommunication systems and their applications, AP05132738. Head: physics doctor, prof. Zeinolla Zh. Zhanabayev

Grant funding for research Г 2018

2018-2020

SNR in telecommunication systems with unknown noise level will be experimentally and theoretically determined; an algorithm for determining the mutual information of one-dimensional and two-dimensional signals will be developed

8

The relationship of nonlinear electrical, optical and fractal-geometric characteristics of nanostructured semiconductors, AP05132854. Head: physics doctor, prof. Zeinolla Zh. Zhanabayev

Grant funding for research Г 2018

2018-2020

A new theory that allows describing the electrophysical properties of nanocluster films, including the hysteresis character of their current-voltage characteristics will be proposed. The asymmetry of the hysteresis loops in the forward and reverse directions, the presence of oscillations and areas of negative differential resistance, as well as the dependence of the type of curves on the value of the thermogeneration current in the absence of an external applied voltage will be described

9

Development of nanotechnology for the synthesis of functional electroplating coatings for electrical equipment components, AP05130069. Head: physics doctor, prof. Gulmira Sh. Yar-Mukhamedova

Grant funding for research Г 2018

2018-2020

Analysis and synthesis of existing technologies of the influence of the composition of multicomponent nanomaterials on their functional properties and substantiation of methods for the synthesis of coatings with double and triple alloys and pre-design preparation will be carried out

10

The use of an alternative source of energy in the household window system regulating the light, heat and sound flow, self-cleaning and dust collection, Head: associate professor Leonid V. Mikhailov

Grant funding for research Г 2018

2018-2020

Use solar energy in household window systems also for night and regulated daylight of the premises, for cleaning the city’s air basin from dust and heat, for additional heat and sound insulation. Achieve the goal of a specialized research area to reduce greenhouse gas emissions through the use of alternative sources and solve the problem of their profitable use

11

Development of technologies for nanostructured oxide semiconductors for a wide range of applications.

ИРН №AP05130100.

№ 0118РК00202

Head: physics doctor, prof. Kh. A. Abdullin

Grant funding for research Г 2018

2018-2020

Experimental techniques for the synthesis of nanoparticles and thin layers will be created. The method of pyrolysis of precursors in the liquid, gas phase and aerosol particles, the hydrothermal method for the synthesis of nanoparticles and arrays of nanorods, the method of forming electrodes using synthesized materials, as well as methods for optimizing the properties of nanoparticles for catalytic decomposition and oxidation reactions will be developed

12

Development of methods for the synthesis of nanostructured materials with luminescent properties. ИРН № AP05130243

№ госрег. 0118РК00202

Head: physics doctor, prof. Kh. A. Abdullin

Grant funding for research Г 2018

2018-2020

Experimental methods for the synthesis of nanostructured luminescent materials will be developed. The properties of samples of zinc oxide nanorods (NR-ZnO) arrays depending on the modes of sample synthesis, the properties of the samples obtained depending on the heat treatment regimes at different temperatures and gas atmospheres will be investigated, low-cost methods of synthesis of new nanostructured oxide matrix materials with luminescent properties will be developed

13

Development of an intelligent autonomous system of wireless control and monitoring of street lighting, AP05132464. Head: PhD Erkebulan D. Nalibayev

Grant funding for research Г 2018

2018-2020

Development of a street lighting system based on solar energy using uniaxial trackers and prototyping, as well as software for monitoring and controlling this autonomous system

14

Organization of production of carbon nanostructured materials for a wide range of applications, Head: PhD Daniyar V. Ismailov

Project of the Joint Stock Company "Science Foundation"

2017-2020

Production of carbon nanostructured materials for a wide range of applications will be organized

TOTAL amount of funding 151 181,182 tenges