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8F15003

STRUCTURE-FUNCTION RELATIONSHIP OF ADVANCED NANOOXIDES FOR ENERGY STORAGE DEVICES

Public support

  • Provider

    Ministry of Education, Youth and Sports

  • Programme

  • Call for proposals

  • Main participants

    Ústav fyzikální chemie J. Heyrovského AV ČR, v. v. i.

  • Contest type

    M2 - International cooperation

  • Contract ID

    MSMT-31729/2015-1

Alternative language

  • Project name in Czech

    STRUCTURE-FUNCTION RELATIONSHIP OF ADVANCED NANOOXIDES FOR ENERGY STORAGE DEVICES

  • Annotation in Czech

    The main objective of the project is focused on the development of novel and sophisticated chemical routes towards energy harvesting materials within multidisciplinary oriented approach in the field of solid state chemistry. Basic concept includes (i) to obtain well-defined complex oxide materials by starting from well designed precursors, (ii) to utilize phenomena at the solid interfaces, particularly those between inorganic – organic solids, (iii) to utilize unique features of non-conventional processes, i.e. mechanical activation and microwave technology, and (iv) to characterize the products under well-defined and reproducible conditions, without restriction to the properties of the end use, e.g. the capacity fade of the complete Li-ion and Na-ion batteries. The target materials include (i) Li- and Na- containing nanocrystalline complex oxides mostly with structure of spinels, garnets, pyroxenes, olivines and orthosilicates and (ii) partially reduced and partially anion exchanged oxide nanoparticles (SiO2, SnO2 and TiO2). Non-conventionally synthesized oxides are expected to possess modified/enhanced structural and electrochemical properties. In the context of the project, special effort will be focused on the systematic study of the structure-related functional properties directly connected towards energy storage applications. The final goal of the project is the optimization and prediction of the real structure of the products possessing e.g. the highest possible Li+ (Na+) ion conductivity by systematically introduced additives and the application of preparative processes of highest precision.

Scientific branches

  • R&D category

    ZV - Basic research

  • CEP classification - main branch

    CG - Electrochemistry

  • CEP - secondary branch

    CA - Inorganic chemistry

  • CEP - another secondary branch

  • OECD FORD - equivalent branches <br>(according to the <a href="http://www.vyzkum.cz/storage/att/E6EF7938F0E854BAE520AC119FB22E8D/Prevodnik_oboru_Frascati.pdf">converter</a>)

    10402 - Inorganic and nuclear chemistry<br>10405 - Electrochemistry (dry cells, batteries, fuel cells, corrosion metals, electrolysis)

Completed project evaluation

  • Provider evaluation

    U - Uspěl podle zadání (s publikovanými či patentovanými výsledky atd.)

  • Project results evaluation

    Following the condition that the candidate of financial contribution was evaluated and afterwards selected by international provider in accordance with the rules of the program the Ministry of Education, Youth ans Sports does not realize the evaluation of project.

Solution timeline

  • Realization period - beginning

    Oct 1, 2015

  • Realization period - end

    Dec 31, 2018

  • Project status

    U - Finished project

  • Latest support payment

    Feb 14, 2018

Data delivery to CEP

  • Confidentiality

    S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů

  • Data delivery code

    CEP19-MSM-8F-U/01:1

  • Data delivery date

    Jun 18, 2019

Finance

  • Total approved costs

    3,480 thou. CZK

  • Public financial support

    3,480 thou. CZK

  • Other public sources

    0 thou. CZK

  • Non public and foreign sources

    0 thou. CZK