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Update Data 
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grzegorz.celichowski@chemia.uni.lodz.pl |
| Last update: 16/02/2022 | |
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| Name: |
| Grzegorz |
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Surname: |
Celichowski |
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Institution: |
The University of Lodz, Department of Materials Technology and Chemistry, Faculty of Chemistry |
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Type of Institution: |
University |
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ORCID number: |
https://orcid.org/0000-0002-1624-3088
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Google Scholar: |
https://scholar.google.pl/citations?user=l6GHtpsAAAAJ&hl=en
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Publons: |
https://publons.com/researcher/1351496/hab-grzegor
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Research Gate: |
https://www.researchgate.net/profile/Grzegorz-Celi
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Country: |
Poland
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WEB address: |
https://www.researchgate.net/profile/Grzegorz-Celichowski |
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Working groups of interest |
| - | WG1 - Advances in Porous Materials and Technologies | | - | WG4 - Environment |
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Research field (Free keywords) |
Silver nanowires; AgNWs; core-shell nanostructures; SnO2 ; Sn3O4; TiO2; Photocatalytic activity, superhydrophobic coating; Ice-phobic coatings; sol-gel coatings; tribology of thin films |
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Scientific expertise |
Silver and gold nanoparticles synthesis, characterisation and functionalisation.
Core-shell (metallic-oxides) nanostructure synthesis, characterisation and applications.
Deposition and characterisation of superhydrophobic and ice-phobic coatings.
Textile modification by silver nanowires and core-shell nanostructures.
Photocatalytic proprieties of a silver core with ceramic shell (SnO2, Sn3O4, TiO2) nanostructures.
Chemical functionalization of metallic and ceramic surfaces.
FT-IR spectroscopy of thin films and modified surface.
Frictional (tribological) characterisation of thin films and modified surfaces in nano, micro and macro scale. |
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Capabilities |
Synthesis of metallic nanoparticles and nanowires (AgNW in 10g of pure materials per day scale).
Synthesis of core-shell nanostructures, metallic core (Ag, Au, Pt) with ceramic shell (SnO2, Sn3O4, TiO2). Other oxides shells are currently under development.
Deposition of nanomaterials thin films on different substrates: spray and electrospray coating, dip coating, spin coating and screen printing.
Nanomaterials (in pure and thin films form) characterisation by SEM and STEM microscopy, AFM microscopy, DLS methods and FT-IR spectroscopy.
They perform photocatalysis experiments with the in-situ characterisation of the organic substances decomposition process by unique designed FT-IR measurements.
Tribological characterisation of thin films materials in nanonewton load (Friction Force Microscopy |
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Relevant publications
(3 max.) |
| A. Baranowska-Korczyc, E. Mackiewicz, K. Ranoszek-Soliwoda, J. Grobelny, G. Celichowski Facile synthesis of SnO2 shell followed by microwave treatment for high environmental stability of Ag nanoparticles, RSC Advances, 10, (2020), 38424–38436. |
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| A. Baranowska-Korczyc, E. Mackiewicz, K. Ranoszek-Soliwoda, A. Nejman, S. Trasobares, J. Grobelny, M. Cieślak, G. Celichowski. A SnO2 shell for high environmental stability of Ag nanowires applied for thermal management, RSC Advances, 11, (2021), 4174-4 |
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| A. Baranowska-Korczyc, E. Mackiewicz, K. Ranoszek-Soliwoda, J. Grobelny, G. Celichowski Core/Shell Ag/SnO2 Nanowires for Visible Light Photocatalysis, Catalysts 12 (1), (2022), 30 |
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Projects
(2 max.) |
| Fibrous structures with hybrid metallic-ceramic coating. Source of funding: National Science Center, Imp. period: 2018 - project currently in progress, Project No: 2018/29/B/ST8/02016. Project manage |
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| Hybrid superhydrophobic and anti-icing coating - HybridCoat. Source of funding: National Science Center and National Center for Research and Development, TANGO-3 project. Implementation period: 2019-2020; project number: TANGO3 421671/NCBR/2019. Project m |
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