Projects funded by the NCN
Efficient fabrication of single-particle-thick micropaths, their characterization and applicability
2019/33/B/ST5/00935
Keywords:
electric field directed-assembly additive manufacturing electrostatic interactions capillary bridges mechanical and electronic properties of 1D particle structures
Descriptors:
- ST5_012:
- ST5_011:
Panel:
ST5 - Materials: materials synthesis, structure-properties relations, advanced and functional materials with designed properties, (macro)molecular architecture, material engineering
Host institution :
Uniwersytet im. Adama Mickiewicza w Poznaniu, Wydział Fizyki
woj. wielkopolskie
Principal investigator (from the host institution):
dr hab. Zbigniew Jerzy Rozynek
Number of co-investigators in the project: 7
Call: OPUS 17 - announced on 2019-03-15
Amount awarded: 2 160 200 PLN
Project start date (Y-m-d): 2020-02-25
Project end date (Y-m-d): 2025-02-24
Project duration:: 60 months (the same as in the proposal)
Project status: Project completed
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 (4)
- Electrical discharges in ferrofluids based on mineral oil and novel gas-to-liquid oilAuthors:J Kurimsky, M Rajnak, R Cimbala, K Paulovicova, Z Rozynek, P Kopcansky, M TimkoAcademic press:Journal of Molecular Liquids (rok: 2010, tom: 325, strony: 115244), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.molliq.2020.115244 - link to the publication
- Fabrication of 1D particle structures outside liquid environment using electric and capillary interactions: from fundamentals to applicationsAuthors:Z Rozynek, Y Harkavyi, and K. GiżyńskiAcademic press:Materials & Design (rok: 2022, tom: 223, strony: 111233), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.matdes.2022.111233 - link to the publication
- Tunable particle shells of thermo-responsive liquid marbles under alternating magnetic fieldAuthors:R. Bielas, T. Kubiak et al.Academic press:Journal of Molecular Liquids (rok: 2023, tom: 391, strony: 123283), Wydawca: ElsevierStatus:PublishedDOI:10.1016/j.molliq.2023.123283 - link to the publication
- Biocompatible Hydrogel-Based Liquid Marbles with MagnetosomesAuthors:R. Bielas, T. Kubiak et al.Academic press:Materials (rok: 2023, tom: 17, strony: 99), Wydawca: MDPIStatus:PublishedDOI:10.3390/ma17010099 - link to the publication