The name of the competition within which the program is being implemented: Competition for grant financing of young scientists on scientific and (or) scientific and technical projects for 2024-2026.
Program Manager: Nuriya M. Mukhamedova, PhD in Technical Physics.
Identifiers:
- Scopus Author ID: 57191189373 (https://www.scopus.com/authid/detail.uri?authorId=57191189373),
- ORCID ID: https://orcid.org/0000-0003-4189-6539.
The research group of the project
| № | Full name | Project position | Identifiers ResearcherID, ORCID, Scopus Author ID (if available) | ||
|---|---|---|---|---|---|
| 1 | Nuriya M. Mukhamedova | Project manager |
Scopus Author ID: 57191189373, |
||
| Young scientists (under 40 + teaching staff (Students, undergraduates) | |||||
| № | Full name | Project position | Identifiers ResearcherID, ORCID, Scopus Author ID (if available) | Note (teacher, student, undergraduate, doctoral student) | |
| 1 | Ernat A. Kozhakhmetov | Senior Researcher |
Scopus Author ID: 57221911547, |
Teaching staff | |
| 2 | Yerkezhan Y. Tabiyeva | Senior Researcher |
Scopus Author ID:55867686500, |
Teaching staff | |
| 3 | Arman Zh. Miniyazov | Research Associate |
Author ID в Scopus: 57195102430, |
||
| 4 | Elfira S. Sagymbekova | Research Associate | Doctoral student | ||
| 5 | Aibar S. Kizatov | Research Associate | Doctoral student | ||
| 6 | Azamat Urkunbay | Engineer |
Author ID в Scopus: 57884973900 |
||
| 7 | Igor Sokolov | Engineer | https://orcid.org/0000-0002-7665-4022 | Doctoral student | |
Project abstract
One of the key problems of hydrogen energy is the development of safe and highly efficient methods for storing and transporting hydrogen, since the methods currently used (in a gaseous state under high pressure and in liquid form at ultra-low temperatures) require special safety measures, hydrogen-neutral structural materials and are very expensive. The most compact and safe method for medium-scale hydrogen storage systems is metal hydrides. The main idea of the project is to develop boron nitride-based hydrides, as well as a method and technology for their production in practice, which, according to theoretical data, may surpass the currently known solid-state hydrogen storage devices.
Project objective: To develop highly efficient materials for hydrogen storage and storage systems based on boron nitrides and to study their properties over wide pressure and temperature ranges.
Expected and achieved results of the project:
- Methods of synthesis and microstructural design of hydrogen hydrides based on boron nitride with increased hydrogen capacity;
- Boron nitride-based test samples for metal hydride applications with a complete set of data on basic performance characteristics (hydrogen absorption, thermal stability, etc.);
- The results of the analysis of the resource resistance of hydrogen storage and transportation systems with the identification of key parameters for increasing the durability of materials.
Based on the results obtained, the results of this project will be published:
- at least 2 (two) articles and (or) reviews in peer-reviewed scientific publications in the scientific field of the project, indexed in the Science Citation Index Expanded of the Web of Science database and (or) having a CiteScore percentile in the Scopus database of at least 50 (fifty);
- at least one (1) patent for an invention (including a positive decision on it)Expected and achieved results of the project:
| Year | The results obtained from the research. Publications (with links to them) and patents; information for potential users. |
|---|---|
| 2024 | |
| 2025 | |
|
2026 |
Infographics
