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dr inż. Paweł Ziółkowski
Employment
- Assistant professor at Institute of Energy
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Comparison of absorption spectroscopy results with a theoretical model of 16-65-nm CTAB-stabilized gold nanorods
Open Research DataFigure and data present theoretical and experimental spectroscopy results of 16-65-nm CTAB-stabilized gold nanorods measured in a water solution. The theoretical curve characteristic corresponds with experimental data obtained from a spectrophotometer Thermo Fisher Scientific Evolution 220 calibrated to a water-filled cuvette. The visible discrepancies...
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Differential Evolution algorithm used for maximization of energy conversion of size and length of laser-irradiated gold nanorods optimization
Open Research DataThe Differential Evolution algorithm was used to solve a model that describes electromagnetic energy conversion, here: into heat. Results reveal the optimized size and length that should be used for maximization of energy conversion. The selected wavelengths for optimization were 465 nm, 532 nm, 640 nm, 808 nm, and 980 nm.
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Temperature characterictics of a 640-nm 0.9-W laser-irradiated germicidal chamber equipped with a glass platform with 16-65-nm gold nanorods
Open Research DataA manufactured chamber was equipped with a glass platform containing 16-65-nm gold nanorods and irradiated using a 640-nm 0.9-W laser for three selected positions and two sizes of gaussian laser beam, 𝐵1 = 2.5 mm and 𝐵2 = 4.0 mm. Figures reveal numerical calculation results of:
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Source term for Escherichia Coli bacteria inactivation rate under temperature changes over time
Open Research DataUsing the Arrhenius equation, this computational code describes a source term used in the CFD equations and enables to calculate numerically an inactivation rate of Escherichia Coli bacteria under temperature changes over time.
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Selected results of temperature, specific total and dynamic entropy, velocity contour plots 5 μm above (top) and 5 μm under (bottom) glassy base of the gold nanorod platforms respectively after of the system irradiation.
Open Research DataThe following results were presented in sequence: (a) Temperature, (b) specific total and (c) dynamic entropy, (d) velocity contour plots 5 μm above (top) and 5 μm under (bottom) glassy base of the gold nanorod platforms respectively after 90 seconds of the system irradiation.
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Numerical results obtained by confronting experiment with theory in the article: White light thermoplasmonic activated gold nanorod arrays enable the photo-thermal disinfection of medical tools from bacterial contamination
Open Research DataThe numerical results are presented in tabular form. The results represent the course of temperature and adsorption coefficient. The numerical model is presented in the paper: White light thermoplasmonic activated gold nanorod arrays enable the photo-thermal disinfection of medical tools from bacterial contamination.
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Numerical metadata of a microchamber with bacteria
Open Research DataSelected results in the form of graphs and a diagram of the analysed system. The metadata shows in sequence: 1) Temperature distribution inside fluidic chamber (=0.8, h=100) after 190s of irradiationTemperature distribution inside fluidic chamber (=0.8, h=100) after 190s of irradiation; 2) Maximum temperature profile in the fluidic chamber during the...
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Maximum temperature of 0.5-W infrared laser-Illuminated gold nanorod platforms
Open Research DataData concern a system consisted of two pieces of borosilicate glass surrounded by air and joined together by a transparent glue, which is to serve as a thermal transducer. On the top and bottom sides of the smaller piece, gold nanorods are dislocated. Glass is prepared here due to its high transparency, facilitating heat to be produced within the system....
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