Filters
total: 926
filtered: 9
-
Catalog
Chosen catalog filters
Search results for: DOMIESZKOWANY-TIO2
-
Diamdop Doped nano-diamond structures for electrochemical sensory applications
ProjectsProject realized in Faculty of Electronics, Telecommunications and Informatics according to LIDER/20/91/L-2/10/NCBiR/2011 agreement from 2011-09-01
-
MINIATURA2 Otrzymywanie i charakterystyka domieszkowanych węglowych materiałów elektrodowych
ProjectsProject realized in Department of Process Engineering and Chemical Technology according to DEC- 2018/02/X/ST5/02760 agreement from 2019-03-01
-
- Effect of ionic liguid structure on the interactions with TiO2 particles in ionic liquids assisted hydrothermal synthesis.
ProjectsProject realized in Faculty of Chemistry according to UMO-2014/15/D/ST5/02747 agreement from 2015-10-12
-
brak Effect of magnetic field on the photocatalytic properties of a fluidized bed based on a nickel foam/nano-TiO2 composite
ProjectsProject realized in West Pomeranian University of Technology in Szczecin according to 2023/49/N/ST11/01737 agreement from 2023-11-23
-
Structural properties and ionic conduction mechanisms in doped ABO4 oxides
ProjectsProject realized in Faculty of Applied Physics and Mathematics according to UMO-2015/17/N/ST5/02813 agreement from 2016-02-26
-
UPTURN + UA Microfluidic channels in boron doped diamond: fluid flows modelling for electrochemical micro-sized sensors
ProjectsProject realized in Department of Metrology and Optoelectronics according to FWD/II/119/UPTURN_UA2/2022 agreement from 2022-12-13
-
iCovid iCovid, impedimetric platform based on boron-doped diamond nanostructures for quantitative analysis of virus-receptor interactions
ProjectsProject realized in Faculty of Electronics, Telecommunications and Informatics according to UMO-2020/01/0/ST7/00104 agreement from 2020-06-05
-
Studies on the synthesis, physicochemical properties and characteristics of the photocatalytic TiO2 nanocomposites based on spinel and hexagonal ferrites used for oxidation of organic contaminants in the aqueous phase.
ProjectsProject realized in Faculty of Chemistry according to UMO-2016/23/D/ST5/01021 agreement from 2017-07-18
-
Wpływ sfunkcjonalizowanych nanocząstek typu rdzeń-powłoka (Fe3O4@SiO2) na zahamowanie enzymów grzybiczych w systemach in vitro
ProjectsProject realized in Department of Pharmaceutical Technology and Biochemistry according to UMO-2015/17/N/NZ7/01087 agreement from 2016-03-17