Projects funded by the NCN
Electrical properties and catalytic activity towards redox reaction of I-/I3- couple of hierarchical carbon nanostructures with new Ni-Co bimetallic catalyst
2019/33/N/ST5/02500
Keywords:
hierarchical nanocomposites electrospun carbon nanofibres carbon nanotubes electrospinning chemical vapour deposition electrical properties charge transfer properties catalytic activity tri-iodide reduction structural properties
Descriptors:
- ST5_10: Functional materials/nanomaterials, nanoparticles
- ST5_1: Structural properties of materials
- ST5_12: Methods of nanomaterials/materials synthesis
Panel:
ST5 - Materials: materials synthesis, structure-properties relations, advanced and functional materials with designed properties, (macro)molecular architecture, material engineering
Host institution :
Akademia Górniczo-Hutnicza im. Stanisława Staszica w Krakowie, Wydział Inżynierii Materiałowej i Ceramiki
woj.
Principal investigator (from the host institution):
Number of co-investigators in the project: 2
Call: PRELUDIUM 17 - announced on 2019-03-15
Amount awarded: 139 540 PLN
Project start date (Y-m-d): 2020-02-20
Project end date (Y-m-d): 2022-08-19
Project duration:: 30 months (the same as in the proposal)
Project status: Project settled
Project description
Download the project description in a pdf file
Note - project descriptions were prepared by the authors of the applications themselves and placed in the system in an unchanged form.
Information in the final report
- Publication in academic press/journals (7)
- Structure and electrical transport properties of carbon nanofibres/carbon nanotubes 3D hierarchical nanocomposites: Impact of the concentration of acetylacetonate catalystAuthors:Marcel Zambrzycki, Szymon Łoś, Aneta Frączek-SzczyptaAcademic press:Ceramics International (rok: 2021, tom: 47, strony: 4020-4033), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.ceramint.2020.09.269 - link to the publication
- Study on the synthesis and properties of hierarchically structured electrospun/vapour-grown carbon nanofibres nanocompositesAuthors:Marcel Zambrzycki, Aneta Frączek-SzczyptaAcademic press:Journal of Industrial and Engineering Chemistry (rok: 2020, tom: 86, strony: 100-112), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.jiec.2020.02.017 - link to the publication
- Hierarchical carbon nanofibers/carbon nanotubes/NiCo nanocomposites as novel highly effective counter electrode for dye-sensitized solar cells: A structure-electrocatalytic activity relationship studyAuthors:Marcel Zambrzycki, Robert Piech, Sonia Ruiz Raga, Monica Lira-Cantu, Aneta Fraczek-SzczyptaAcademic press:Carbon (rok: 2023, tom: 203, strony: 97-110), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.carbon.2022.11.047 - link to the publication
- Structure and electrical transport properties of carbon nanofibres/carbon nanotubes 3D hierarchical nanocomposites: Impact of the concentration of acetylacetonate catalystAuthors:Marcel Zambrzycki, Szymon Łoś, Aneta Frączek-SzczyptaAcademic press:Ceramics International (rok: 2021, tom: 47, strony: 4020-4033), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.ceramint.2020.09.269 - link to the publication
- Structure and electrical transport properties of electrospun carbon nanofibers/carbon nanotubes 3D hierarchical nanocomposites: effect of the CCVD synthesis conditionsAuthors:Marcel Zambrzycki, Piotr Jeleń, Aneta Fraczek-SzczyptaAcademic press:Journal of Materials Science (rok: 2022, tom: 57, strony: 9334–9356), Wydawca: SpringerStatus:PublishedDOI:10.1007/s10853-022-07267-9 - link to the publication
- Study on the synthesis and properties of hierarchically structured electrospun/vapour-grown carbon nanofibres nanocompositesAuthors:Marcel Zambrzycki, Aneta Frączek-SzczyptaAcademic press:Journal of Industrial and Engineering Chemistry (rok: 2020, tom: 86, strony: 100-112), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.jiec.2020.02.017 - link to the publication
- Structure and electrical transport properties of electrospun carbon nanofibers/carbon nanotubes 3D hierarchical nanocomposites: effect of the CCVD synthesis conditionsAuthors:Marcel Zambrzycki, Piotr Jeleń, Aneta Fraczek-SzczyptaAcademic press:Journal of Materials Science (rok: 2022, tom: 57, strony: 9334–9356), Wydawca: SpringerStatus:PublishedDOI:10.1007/s10853-022-07267-9 - link to the publication