Your search keyword '"Ewelina Weidner"' showing total 12 results

1. Mechanochemical synthesis of alumina-based catalysts enriched with vanadia and lanthana for selective catalytic reduction of nitrogen oxides

Author

Ewelina Weidner, Rabindra Dubadi, Bogdan Samojeden, Adam Piasecki, Teofil Jesionowski, Mietek Jaroniec, and Filip Ciesielczyk

Subjects

Medicine, Science

Abstract

Abstract Novel alumina-based materials enriched with vanadia and lanthana were successfully synthesized via in situ modification using a mechanochemical method, and were applied in ammonia-induced selective catalytic reduction of nitrogen oxides (SCR process). The synthesis was optimized in terms of the ball milling time (3 or 5 h), vanadium content (0.5, 1 or 2 wt% in the final product), and lanthanum content (0.5 or 1 wt% in the final product). Vanadium (V) oxide was immobilized on an alumina support to provide catalytic activity, while lanthana was introduced to increase the affinity of nitrogen oxides and create more active adsorption sites. Mechanochemical synthesis successfully produced mesoporous materials with a large specific surface area of 279–337 m2/g and a wide electrokinetic potential range from 60 to (− 40) mV. Catalytic tests showed that the incorporation of vanadia resulted in a very large improvement in catalytic performance compared with pristine alumina, increasing its efficiency from 14 to 63% at 400 °C. The best SCR performance, a 75% nitrogen oxide conversion rate at a temperature of 450 °C, was obtained for alumina enriched with 2 and 0.5 wt% of vanadium and lanthanum, respectively, which may be considered as a promising result.

Published

2022

2. Exploring the Multifunctionality of Mechanochemically Synthesized γ-Alumina with Incorporated Selected Metal Oxide Species

Author

Rabindra Dubadi, Ewelina Weidner, Bogdan Samojeden, Teofil Jesionowski, Filip Ciesielczyk, Songping Huang, and Mietek Jaroniec

Subjects

mechanochemical synthesis, γ-alumina, metal oxide incorporation, NO conversion, CO2 capture, antimicrobial properties, Organic chemistry, QD241-441

Abstract

γ-Alumina with incorporated metal oxide species (including Fe, Cu, Zn, Bi, and Ga) was synthesized by liquid-assisted grinding—mechanochemical synthesis, applying boehmite as the alumina precursor and suitable metal salts. Various contents of metal elements (5 wt.%, 10 wt.%, and 20 wt.%) were used to tune the composition of the resulting hybrid materials. The different milling time was tested to find the most suitable procedure that allowed the preparation of porous alumina incorporated with selected metal oxide species. The block copolymer, Pluronic P123, was used as a pore-generating agent. Commercial γ−alumina (SBET = 96 m2·g−1), and the sample fabricated after two hours of initial grinding of boehmite (SBET = 266 m2·g−1), were used as references. Analysis of another sample of γ-alumina prepared within 3 h of one-pot milling revealed a higher surface area (SBET = 320 m2·g−1) that did not increase with a further increase in the milling time. So, three hours of grinding time were set as optimal for this material. The synthesized samples were characterized by low-temperature N2 sorption, TGA/DTG, XRD, TEM, EDX, elemental mapping, and XRF techniques. The higher loading of metal oxide into the alumina structure was confirmed by the higher intensity of the XRF peaks. Samples synthesized with the lowest metal oxide content (5 wt.%) were tested for selective catalytic reduction of NO with NH3 (NH3-SCR). Among all tested samples, besides pristine Al2O3 and alumina incorporated with gallium oxide, the increase in reaction temperature accelerated the NO conversion. The highest NO conversion rate was observed for Fe2O3-incorporated alumina (70%) at 450 °C and CuO-incorporated alumina (71%) at 300 °C. The CO2 capture was also studied for synthesized samples and the sample of alumina with incorporated Bi2O3 (10 wt.%) gave the best result (1.16 mmol·g−1) at 25 °C, while alumina alone could adsorb only 0.85 mmol·g−1 of CO2. Furthermore, the synthesized samples were tested for antimicrobial properties and found to be quite active against Gram-negative bacteria, P. aeruginosa (PA). The measured Minimum Inhibitory Concentration (MIC) values for the alumina samples with incorporated Fe, Cu, and Bi oxide (10 wt.%) were found to be 4 µg·mL−1, while 8 µg·mL−1 was obtained for pure alumina.

Published

2023

3. Removal of Hazardous Oxyanions from the Environment Using Metal-Oxide-Based Materials

Author

Ewelina Weidner and Filip Ciesielczyk

Subjects

oxyanions, sorption, metal oxides, environment pollution, water purification, adsorbents, hazardous metals, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

Scientific development has increased the awareness of water pollutant forms and has reawakened the need for its effective purification. Oxyanions are created by a variety of redox-sensitive metals and metalloids. These species are harmful to living matter due to their toxicity, nondegradibility, and mobility in aquatic environments. Among a variety of water treatment techniques, adsorption is one of the simplest, cheapest, and most effective. Since metal-oxide-based adsorbents poses a variety of functional groups onto their surface, they were widely applied in ions sorption. In this paper adsorption of harmful oxyanions by metal oxide-based materials according to literature survey was studied. Characteristic of oxyanions originating from As, V, B, W and Mo, their probable adsorption mechanisms and comparison of their sorption affinity for metal-oxide-based materials such as iron oxides, aluminum oxides, titanium dioxide, manganium dioxide, and various oxide minerals and their combinations are presented in this paper.

Published

2019

4. Hybrid Metal Oxide/Biochar Materials for Wastewater Treatment Technology: A Review

Author

Ewelina Weidner, Elika Karbassiyazdi, Ali Altaee, Teofil Jesionowski, and Filip Ciesielczyk

Subjects

0904 Chemical Engineering, 0912 Materials Engineering, General Chemical Engineering, General Chemistry

Abstract

This paper discusses the properties of metal oxide/biochar systems for use in wastewater treatment. Titanium, zinc, and iron compounds are most often combined with biochar; therefore, combinations of their oxides with biochar are the focus of this review. The first part of this paper presents the most important information about biochar, including its advantages, disadvantages, and possible modification, emphasizing the incorporation of inorganic oxides into its structure. In the next four sections, systems of biochar combined with TiO2, ZnO, Fe3O4, and other metal oxides are discussed in detail. In the next to last section probable degradation mechanisms are discussed. Literature studies revealed that the dispersion of a metal oxide in a carbonaceous matrix causes the creation or enhancement of surface properties and catalytic or, in some cases, magnetic activity. Addition of metallic species into biochars increases their weight, facilitating their separation by enabling the sedimentation process and thus facilitating the recovery of the materials from the water medium after the purification process. Therefore, materials based on the combination of inorganic oxide and biochar reveal a wide range of possibilities for environmental applications in aquatic media purification.

Published

2022

5. Soft-templating synthesis of mesoporous alumina enriched with lanthana and its potential as diclofenac delivery system

Author

Ewelina Weidner, Przemysław Bartczak, Joanna Goscianska, Teofil Jesionowski, Mietek Jaroniec, and Filip Ciesielczyk

Subjects

Mechanics of Materials, General Materials Science, General Chemistry, Condensed Matter Physics

Published

2023

6. Insight into the removal of vanadium ions from model and real wastewaters using surface grafted zirconia-based adsorbents: Batch experiments, equilibrium and mechanism study

Author

Ewelina Weidner, Grzegorz Wójcik, Dorota Kołodyńska, Teofil Jesionowski, and Filip Ciesielczyk

Subjects

Ions, Kinetics, Environmental Engineering, Cetrimonium, Thermodynamics, Vanadium, General Medicine, Adsorption, Management, Monitoring, Policy and Law, Wastewater, Hydrogen-Ion Concentration, Waste Management and Disposal, Water Pollutants, Chemical

Abstract

This study concerns the fabrication of CTAB- and N,N-dimethyltetradecylamine-grafted zirconia and evaluation of their ability to adsorb vanadium ions. The effectiveness of ZrO

Published

2022

7. Crystallization process in the isotactic polypropylene melts with ZrO2∙SiO2 hybrids in quiescent and dynamic conditions

Author

Wojciech H. Bednarek, Filip Ciesielczyk, Majka Odalanowska, Ewelina Weidner, Joanna Szymańska, Natalia Nowakowska, and Dominik Paukszta

Subjects

Polymers and Plastics, Organic Chemistry, Materials Chemistry

Published

2022

8. Synthesis of vanadium-enriched oxide materials via modified sol-gel route with the use of waste solutions contaminated with vanadium ions

Author

Teofil Jesionowski, Katarzyna Siwińska-Ciesielczyk, Ewelina Weidner, Adam Piasecki, and Filip Ciesielczyk

Subjects

chemistry.chemical_compound, Chemistry, Oxide, Vanadium, chemistry.chemical_element, Cubic zirconia, General Medicine, Contamination, Sol-gel, Nuclear chemistry, Ion

Published

2020

9. Prospects of Using the Functionality of Zirconia-Silica Hybrid Materials Towards Hazardous Metal Ions Recovery from Model and Real Wastewaters Raising from Industrial Production of Sulphuric(Vi) Acid: Batch Adsorption Experiments and Mechanism Study

Author

Sebastian Drużyński, Krzysztof Mazurek, Ewelina Weidner, Filip Ciesielczyk, Urszula Kiełkowska, and Teofil Jesionowski

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

10. Exploiting the multifunctionality of a designed vanadium-doped ZnO hybrid for selective catalytic reduction of NOx and electrochemical applications

Author

Ewelina Weidner, Beata Kurc, Bogdan Samojeden, Marita Pigłowska, Agnieszka Kołodziejczak-Radzimska, Teofil Jesionowski, and Filip Ciesielczyk

Subjects

Process Chemistry and Technology, Chemical Engineering (miscellaneous), Pollution, Waste Management and Disposal

Published

2022

11. A comprehensive method for tetracycline removal using lanthanum-enriched titania–zirconia oxide system with tailored physicochemical properties

Author

Dariusz Moszyński, Ewelina Weidner, Teofil Jesionowski, Filip Ciesielczyk, and Katarzyna Siwińska-Ciesielczyk

Subjects

Langmuir, Materials science, Oxide, Soil Science, chemistry.chemical_element, Infrared spectroscopy, Plant Science, chemistry.chemical_compound, Adsorption, X-ray photoelectron spectroscopy, chemistry, Photocatalysis, Lanthanum, Fourier transform infrared spectroscopy, General Environmental Science, Nuclear chemistry

Abstract

A novel TiO 2-ZrO 2 hybrid oxide material enriched with lanthanum via in situ modification was successfully synthesized via a sol–gel process and applied in tetracycline (TC) removal. Lanthanum was introduced to increase the adhesion of organic compound to the TiO 2-ZrO 2 surface, which is beneficial for adsorption capacity and photocatalytic activity. Detailed physicochemical analysis of the hybrid oxide materials was carried out using analytical techniques including energy dispersive X-ray spectroscopy (EDX), Fourier infrared spectroscopy (FTIR), low-temperature N 2 adsorption (BET model) and X-ray photoelectron spectroscopy (XPS). A key aspect of the research was the determination of optimum conditions for tetracycline removal from model solutions by a comprehensive method that combines adsorption and photocatalytic degradation processes. The maximum Langmuir adsorption capacity of the TiO 2-ZrO 2/La system with respect to TC was calculated to be 69.44 mg/g. Additionally, photocatalytic tests showed that 35 mg of TiO 2-ZrO 2/La photocatalyst was able to remove TC from a 10 mg/L model solution in 120 min with 100% efficiency. Thus, it is a very promising material for the treatment of wastewaters containing tetracycline.

Published

2021

12. Removal of Hazardous Oxyanions from the Environment Using Metal-Oxide-Based Materials

Author

Filip Ciesielczyk and Ewelina Weidner

Subjects

adsorbents, Oxide, Portable water purification, 02 engineering and technology, Review, environment pollution, 010501 environmental sciences, 01 natural sciences, hazardous metals, lcsh:Technology, chemistry.chemical_compound, Adsorption, metal oxides, General Materials Science, oxyanions, lcsh:Microscopy, 0105 earth and related environmental sciences, lcsh:QC120-168.85, Oxide minerals, sorption, lcsh:QH201-278.5, lcsh:T, Sorption, 021001 nanoscience & nanotechnology, chemistry, lcsh:TA1-2040, Environmental chemistry, Water treatment, lcsh:Descriptive and experimental mechanics, Metalloid, lcsh:Electrical engineering. Electronics. Nuclear engineering, 0210 nano-technology, Literature survey, lcsh:Engineering (General). Civil engineering (General), lcsh:TK1-9971, water purification

Abstract

Scientific development has increased the awareness of water pollutant forms and has reawakened the need for its effective purification. Oxyanions are created by a variety of redox-sensitive metals and metalloids. These species are harmful to living matter due to their toxicity, nondegradibility, and mobility in aquatic environments. Among a variety of water treatment techniques, adsorption is one of the simplest, cheapest, and most effective. Since metal-oxide-based adsorbents poses a variety of functional groups onto their surface, they were widely applied in ions sorption. In this paper adsorption of harmful oxyanions by metal oxide-based materials according to literature survey was studied. Characteristic of oxyanions originating from As, V, B, W and Mo, their probable adsorption mechanisms and comparison of their sorption affinity for metal-oxide-based materials such as iron oxides, aluminum oxides, titanium dioxide, manganium dioxide, and various oxide minerals and their combinations are presented in this paper.

Published

2019