RODBUK Jagiellonian University in Kraków
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Stable Solar Water Splitting Enabled in Anodic W/WO3 Nanorod Based Electrodes By Hydrothermal Engineering - replication data
No full textScope of dataset : Detailed structural, morphological, surface, optical, elemental and photoelectrochemical characterization of anodized tungsten oxide (with and without optimized hydrothermal treatment) as electrodes for solar water oxidation. Purpose of the data set: For help in plotting any related data types along with data reported in this study, for reproduction or comparison purposes. Nature of the data set: TXT and PDF files
Unraveling the Role of Alkali on Cobalt Catalyst Performance in Ethanol Steam Reforming by Operando DRIFT Studies and DFT Modeling - reaserch data
No full textThe results of physicochemical characterization (XRD, Raman Spectroscopy, operando DRIFT, UV Vis-DRS, XPS) and catalytic activity in the ethanol steam reforming process (ESR) of the alkali doped cobalt catalysts. In this work, we compared the ethanol steam reforming performance of the cobalt catalysts doped with diffrent alkali metals (Na, K, Rb, Cs). We applied sonochemical synthesis for the cobalt deposition. The experimental results were supported by DFT calculations
Leveraging Mesoporosity and Acidity in Interzeolite Transformation Intermediates for Plastic Waste Valorization - replication data
No full textInterzeolite Transformation Intermediates (ITIs) produced by the partial interconversion of FAU and BEA zeolites were systematically investigated as catalysts for the cracking of low-density polyethylene (LDPE) and polystyrene (PS). Catalytic performance was benchmarked against fully formed zeolites (FAU, BEA) and a mesoporous aluminosilicate (Al-MCM-41). For LDPE cracking, strong acidity and well-defined microporosity were found to be critical, with conventional zeolites outperforming ITIs. In contrast, ITIs exhibited superior catalytic activity and stability for PS cracking owing to their well-connected mesoporosity and balanced acidity profiles
Study of the effect of modifiers on poly(lactic acid): in situ FT-IR measurements
No full textThe files contain a description of samples preparation and spectroscopic measurement parameters. In situ FTIR measurements were achieved by an infrared
microscope coupled with a heating stage. Poly(lactic acid) was modified with two different plasticizers and inorganic nucleator. Series of films were measured in non-isothermal and isothermal conditions
3D model project of Nea Paphos city in Late Roman (Phase 4)
No full text3D models generated using procedural modeling were perform based on architectural studies of housing remains in Nea Paphos and its development. So colled static models were genarated based on architectural and archaeological studies made during Polish Archaeological Mission in Nea paphos and MAP project directed by Ewdoksia Papuci-Wladyka.
Late Roman (4rd-5th C.E) developments include: House of Aion, 2nd phase of Theseus house new street between houses, Domus in Garnison Camp, late antiquity basilicas
The scene in TwinMotion were generated using imported geometry of 3D models generated using procedural rules and BIM softwar
ToF-SIMS lipidomic data for lipid profiles of Extracellular vesicles and Parent Bacteria
No full textFor these experiments, we utilized a reflectron-type time-of-flight secondary ion mass spectrometer (ToF-SIMS V, ION-TOF GmbH, Münster, Germany) equipped with a bismuth liquid metal ion gun. The primary ion source consisted of pulsed Bi₃⁺ clusters at 30 keV with an ion current of approximately 0.61 pA.
Positive secondary ions with mass-to-charge ratios (m/z) ranging from 1 to 900 were collected from individual 150 μm × 150 μm areas. Mass spectra were internally calibrated using H⁺, H₂⁺, CH⁺, CH₂⁺, CH₃⁺, C₂H₅⁺, C₃H₂⁺, and C₃H₅⁺ peaks, with normalization based on the total dose deposited on the surface.
The Bi₃⁺ primary ion beam was rastered randomly over a 128 × 128 pixel grid. To neutralize surface charge during analysis, a low-energy electron flood gun was activated.
During static analysis, the probability of a single primary ion striking the same point on the sample surface more than once was negligible. Total ion doses were maintained below the static acquisition limit, with a uniform dose of 1 × 10¹² ions/cm² applied across all surface analyses.
For data processing, the average intensity values and standard deviations were calculated from eight measurements per sample
Optical memory effect in a dynamic gadolinium–tetracyanidoplatinate coordination polymer for sensing deviations in temperature and humidity - replication data
No full textThe dataset contains water vapor sorption properties and related humidity-dependent photoluminescence spectra of comp. 1 (Fig. 2), heating-induced changes in the photoluminescence spectra of comp. 1 (Fig. 3), the photoluminescence spectra of comp. 1 demonstrating the humidity and temperature solvent-controlled optical tristability (Fig. 5)
Kibble-Zurek dynamical scaling hypothesis in the Google analog-digital quantum simulator of the model - raw data
No full textThe data of iPEPS results is stored in Part_1.zip The data of MPS results is stored in Part_2.zip.
Part_1.zip contains the original data of Fig. 3, Fig.4, Fig.5 and Fig.6. It contains: truncation error information of PEPS, correlation functions and Kibble-Zurek dynamics on an infinite two-dimensional lattice.
Part_2.zip contains the original data of Fig. 7 and Fig.8. It contains: energies, correlation functions and Kibble-Zurek dynamics on a finite to-dimensional latice
Phenomenology of many-body localization in bond-disordered spin chains - replication data
No full textThe set contains numerical data as well as the figures and scripts to plot them
Transformation of CH4 and CO2 over Cu-FER zeolites - replication data
No full textThis investigation emphasizes the efficacy of Cu-FER catalysts with varying copper loadings in the conversion of carbon dioxide (CO2) and methane (CH4) into methanol or acetic acid. The high fraction of isolated Cu2+cations in Cu-FER catalysts with low copper loading was confirmed by XAS, UV-Vis, and FTIR analyses. Conversely, those with high copper loading have a substantial presence of Cu oxo-species. Bare Cu(II) cations, in conjunction with Brønsted acid sites, facilitate the conversion of CO2 and CH4 into acetic acid through coupled oxidation and carbonylation reactions, as demonstrated by operando investigations (FTIR and mass spectrometry). Conversely, the formation of methanol is facilitated by the dominance of Cu oxo species and the absence of Brønsted acid sites in high-loaded Cu-FER