Your search keyword '"01.04. Kémiai tudományok"' showing total 215 results

1. Molecular orientation rules the efficiency of immobilized antioxidants

Author

Adél Szerlauth, Zsuzsanna D. Kónya, Gréta Papp, Zoltán Kónya, Ákos Kukovecz, Márton Szabados, Gábor Varga, and István Szilágyi

Subjects

Biomaterials, Colloid and Surface Chemistry, 01.04. Kémiai tudományok, Spectroscopy, Fourier Transform Infrared, Reactive Oxygen Species, Glutathione, Tannins, Antioxidants, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Abstract

Tannic acid (TA) and glutathione (GSH) are important molecular antioxidants against reactive oxygen species. Their efficiency is limited by low solubility and high sensitivity, which may be solved by confinement in composite materials. Here, effect of immobilization of these antioxidants on their radical scavenging activity was investigated using layered double hydroxide (LDH) nanoparticles as hosts. Different preparation methods were applied to build composite systems leading to variations in the molecular orientation of both TA and GSH on the surface or among the layers of LDHs. Systematic combination of spectroscopy (FT-IR, Raman, UV-VIS-NIR-DRS), diffraction (XRD) and microscopy (SEM) methods revealed perpendicular or parallel orientation of TA on the surface of LDH depending on the preparation approach applied. Immobilization of GSH protected the antioxidant molecules from degradation. Radical scavenging tests evidenced that the activity of the antioxidants strongly depends on the molecular orientation. The LDH supported GSH and TA proved as durable and reusable antioxidant agents to be applied as radical scavengers in medical therapies or in industrial processes.

Published

2023

2. Operando characterization of continuous flow CO2 electrolyzers: current status and future prospects

Author

Csaba Janaky and Dorottya Hursán

Subjects

01.04. Kémiai tudományok, Materials Chemistry, Metals and Alloys, Ceramics and Composites, General Chemistry, Catalysis, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Abstract

Operando characterization methods will help to understand processes occurring in high performance CO2 electrolyzers.

Published

2023

3. Delamination of Layered Double Hydroxide in Ionic Liquids under Ambient Conditions

Author

Dóra Takács, Gábor Varga, Edit Csapó, Andrej Jamnik, Matija Tomšič, and István Szilágyi

Subjects

01.04. Kémiai tudományok, General Materials Science, Physical and Theoretical Chemistry

Abstract

Liquid phase delamination of layered materials into single- or few-layer nanosheets leads to stable nanoscale dispersions of 2D materials. The delamination of layered double hydroxide (LDH) to double hydroxide nanosheets was studied in two ionic liquids (ILs): ethylammonium nitrate (EAN) and 1-butyl-3-methylimidazolium thiocyanate (BMIMSCN). The as-prepared lamellar structure of LDH disappeared upon dispersing it in ILs due to delamination into 2D nanosheets confirmed by X-ray scattering and diffraction techniques and further evaluated by height profile assessment of the nanoparticles by atomic force microscopy. The results showed that both the thickness and lateral size of the dispersed particles decreased in the IL-based samples, indicating that cleavage of the LDH materials can be observed in addition to delamination. The findings prove the concept of delamination of layered materials by ILs under ambient conditions─an excellent way to prepare 2D double hydroxide nanosheet dispersions in one step using nonvolatile green solvents.

Published

2022

4. Microscopic and structural study on the formation of mechanochemical synthesized BaTiO3 and ZnTiO3 perovskites

Author

Gábor Kozma, Dániel Berkesi, Katalin Liptak, Andrea Rónavári, Ákos Kukovecz, and Zoltán Kónya

Subjects

01.04. Kémiai tudományok, General Earth and Planetary Sciences, General Environmental Science

Abstract

In this work, the properties of mechanochemically produced (by using mills made from different materials) barium-titanate (BaTiO3) and zinc-titanate (ZnTiO3) perovskites are compared. Mechanochemistry is a process that can cover the energy demand of some reaction pathways between solid materials. This process is called “high-energy milling”, for which not all types of mills are suitable. In our case, a planetary ball mill provided the necessary energy. Using a model, the required energy is determinable; the energy released during an impact of a milling ball (Eb – ball-impact energy), as well as during the whole milling (Ecum – cumulative milling energy). Thus, a milling-energy map was created, with which the applied Eb and Ecum values were visualized depending on the different grinding parameters. The parameters changed were the material of the grinding vessels, the number of grinding balls, and the rotational speed. The transformation was tracked by X-ray diffraction (XRD) measurements, and electron microscopic images (TEM and SEM) of the perovskites produced were taken. This study aimed to draw conclusions that will help later in the synthesis of materials with other perovskite structures by choosing optimal milling parameters.

Published

2022

5. Tilted State Population of Antimicrobial Peptide PGLa Is Coupled to the Transmembrane Potential

Author

Lukács J. Németh, Tamás A. Martinek, and Balázs Jójárt

Subjects

Anti-Infective Agents, General Chemical Engineering, Lipid Bilayers, 01.04. Kémiai tudományok, Water, 03.01. Általános orvostudomány, General Chemistry, Library and Information Sciences, Antimicrobial Peptides, Membrane Potentials, Anti-Bacterial Agents, Computer Science Applications

Abstract

Cationic antimicrobial peptide PGLa gets into close contact with the anionic bacterial cell membrane, facilitating cross-membrane transport phenomena and membrane disruption depending on the concentration. The mechanisms of action are closely associated with the tilted insertion geometry of PGLa. Therefore, we aimed to understand the interaction between the transmembrane potential (TMP) and the orientation of the membrane-bound PGLa helix. Molecular dynamics simulations were performed with TMP, and we found that the PGLa tilt angle relative to the membrane is coupled with the TMP. Elevated TMP increases the population of the tilted state. We observed positive feedback between the tilt angle and the TMP, which occurs due to the electrostatic interaction between the peptidic helix and the Nasup+/supcations at the membrane-water interface. These TMP coupled phenomena can contribute to understanding the direct antimicrobial and adjuvant effects of PGLa in combination with regular antibiotics.

Published

2022

6. Development of a Near-Infrared Photoacoustic System for Selective, Fast, and Fully Automatized Detection of Isotopically Labeled Ammonia

Author

Emily Awuor Ouma, Helga Huszár, László Horváth, Gábor Szabó, Csaba Janáky, and Zoltán Bozóki

Subjects

01.03. Fizikai tudományok, Steam, Ammonia, Lasers, Spectrum Analysis, 01.04. Kémiai tudományok, Analytical Chemistry

Abstract

Different environmental and industrial technologies seek for fast and automatic ammonia detection systems, capable of the selective measurement of the concentration of its isotopes at sub-ppm levels, without any interference with the common contaminants. In this work, we report the quasi-simultaneous measurement ofsup14/supNHsub3/subandsup15/supNHsub3/subconcentrations based on a near-infrared diode laser-based photoacoustic system. Using a widely tunable external cavity diode laser, four nearby wavelengths within the range of 1531.3-1531.8 nm were optimal circumstances for sensitive detection, while avoiding interference with water vapor. Subsequently, a more robust distributed feedback diode laser was employed to tune the laser wavelength on the sub-second timescale by varying its driving current rather than using much slower temperature tuning. The detection limit of our system is 0.15 and 0.73 ppm forsup14/supNHsub3/subandsup15/supNHsub3/sub(with an accuracy below 0.1%), respectively, and the response time is 3.5 s.

Published

2022

7. Exciton Dynamics in MoS2-Pentacene and WSe2-Pentacene Heterojunctions

Author

Pavel A. Markeev, Emad Najafidehaghani, Gergely F. Samu, Krisztina Sarosi, Sirri Batuhan Kalkan, Ziyang Gan, Antony George, Veronika Reisner, Karoly Mogyorosi, Viktor Chikan, Bert Nickel, Andrey Turchanin, Michel P. de Jong, Nano Electronics, and MESA+ Institute

Subjects

transient reflection spectroscopy, WSe, transition metal dichalcogenides, 01.04. Kémiai tudományok, UT-Hybrid-D, General Engineering, General Physics and Astronomy, exciton dynamics, pentacene, General Materials Science, MoS, organic semiconductors

Abstract

We measured the exciton dynamics in van der Waals heterojunctions of transition metal dichalcogenides (TMDCs) and organic semiconductors (OSs). TMDCs and OSs are semiconducting materials with rich and highly diverse optical and electronic properties. Their heterostructures, exhibiting van der Waals bonding at their interfaces, can be utilized in the field of optoelectronics and photovoltaics. Two types of heterojunctions, MoS2-pentacene and WSe2-pentacene, were prepared by layer transfer of 20 nm pentacene thin films as well as MoS2and WSe2monolayer crystals onto Au surfaces. The samples were studied by means of transient absorption spectroscopy in the reflectance mode. We found that A-exciton decay by hole transfer from MoS2to pentacene occurs with a characteristic time of 21 ± 3 ps. This is slow compared to previously reported hole transfer times of 6.7 ps in MoS2-pentacene junctions formed by vapor deposition of pentacene molecules onto MoS2on SiO2. The B-exciton decay in WSe2shows faster hole transfer rates for WSe2-pentacene heterojunctions, with a characteristic time of 7 ± 1 ps. The A-exciton in WSe2also decays faster due to the presence of a pentacene overlayer; however, fitting the decay traces did not allow for the unambiguous assignment of the associated decay time. Our work provides important insights into excitonic dynamics in the growing field of TMDC-OS heterojunctions.

Published

2022

8. Peeling off the surface: Pt‐decoration of WSe 2 nanoflakes results in exceptional photoelectrochemical HER activity

Author

Péter S. Tóth, Gábor Szabó, Gábor Bencsik, Gergely F. Samu, Krishnan Rajeshwar, and Csaba Janáky

Subjects

Complementary and alternative medicine, 01.04. Kémiai tudományok, Pharmaceutical Science, Pharmacology (medical)

Published

2022

9. Differently shaped Al2O3-based Pd catalysts loaded catalytic converter for novel non-road mobile machinery exhaust systems

Author

Owais Al-Aqtash, Ferenc Farkas, András Sápi, Imre Szenti, Tamás Boldizsár, Kornélia B. Ábrahámné, Ákos Kukovecz, and Zoltán Kónya

Subjects

02.03. Gépészmérnöki tudományok, 01.04. Kémiai tudományok, Physical and Theoretical Chemistry, Catalysis

Published

2022

10. Distinguishing Anionic Species That Are Intercalated in Layered Double Hydroxides from Those Bound to Their Surface: A Comparative IR Study

Author

István Pálinkó, Pál Sipos, Ottó Berkesi, and Gábor Varga

Subjects

General Energy, 01.04. Kémiai tudományok, Physical and Theoretical Chemistry, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials

Published

2022

11. Preparation of 3-O-, 5-O- and N-palmitoyl derivatives of fumonisin B1 toxin and their characterisation with NMR and LC-HRMS methods

Author

Angeli Cserne, Nagy Tamás Milán, Horváth Levente, Varga Mónika, Szekeres András, Tóth Gábor, Janáky Tamás, Szolomájer János, Kovács Melinda, E Kövér Katalin, and Bartók Tibor

Subjects

Health, Toxicology and Mutagenesis, 01.04. Kémiai tudományok, Public Health, Environmental and Occupational Health, 03.01. Általános orvostudomány, General Chemistry, General Medicine, Toxicology, Food Science

Abstract

We have previously published six esterified O-acyl (EFB1) and three N-acyl fumonisin B-1 derivatives extracted from rice cultures inoculated with Fusarium verticillioides, amongst these the identification of N-palmitoyl-FB1 has been clearly established in a spiking experiment. At that time, it was assumed that as in the case of O-acyl-FB1 derivatives, linoleic-, oleic- or palmitic acid esterify through the OH group on the 3C or 5C atom of the carbon chain of the fumonisins. In our most recent experiments, we have synthetically acylated the FB1 toxin and subsequently purified 3-O-palmitoyl- and 5-O-palmitoyl-FB1 toxins in addition to the N-palmitoyl-FB1 toxin. They were identified and characterised using H-1 and C-13 NMR as well as LC-HRMS. Our aim was the identification of the previously detected O-acyl-FB1 derivatives over the course of a spiking experiment, which were obtained through the solid-phase fermentation of Fusarium verticillioides. By spiking the three synthesized and identified components one-by-one into the fungal culture extract and analysing these cultures using LC-MS, it was clearly demonstrated that the F. verticillioides strain produced both the 5-O-palmitoyl-FB1 and N-palmitoyl-FB1 toxins, but did not produce 3-O-palmitoyl-FB1. Thus, it is highly probable that the components thought to be 3-O-acyl-(linoleoyl-, oleoyl-, palmitoyl-) FB1 derivatives in our previous communication are presumably 10-O-acyl-FB1 derivatives. Since these acylated FB1 derivatives can occur naturally in e.g. maize, the use of these synthesized components as reference materials is of great importance in order to obtain accurate qualitative and quantitative data on the occurrence of acylated fumonisins in different matrices including maize based feed samples. The production of these substances has also made it possible to test their toxicity in cell culture and small animal experiments.

Published

2022

12. Exploration of Li‐Ion Batteries during a Long‐Term Heat Endurance Test Using 3D Temporal Microcomputed Tomography Investigation

Author

Gergő Ballai, Milán Attila Sőrés, Lívia Vásárhelyi, Imre Szenti, Robert Kun, Bálint Hartmann, Dániel Sebők, Ferenc Farkas, Aqib Zahoor, Guozhu Mao, András Sápi, Ákos Kukovecz, and Zoltán Kónya

Subjects

General Energy, 01.04. Kémiai tudományok

Published

2023

13. Core-Shell Structured PLGA Particles Having Highly Controllable Ketoprofen Drug Release

Author

Norbert Varga, Rita Bélteki, Ádám Juhász, and Edit Csapó

Subjects

PLGA, ketoprofen, core-shell nanocarrier, controlled release, 01.04. Kémiai tudományok, Pharmaceutical Science

Abstract

The non-steroid anti-inflammatory drug ketoprofen (KP) as a model molecule is encapsulated in different poly(lactide-co-glycolide) (PLGA) nanostructured particles, using Tween20 (TWEEN) and Pluronic F127 (PLUR) as stabilizers to demonstrate the design of a biocompatible colloidal carrier particles with highly controllable drug release feature. Based on TEM images the formation of well-defined core-shell structure is highly favorable using nanoprecipitation method. Stabile polymer-based colloids with ~200–210 nm hydrodynamic diameter can be formed by successful optimization of the KP concentration with the right choice of stabilizer. Encapsulation efficiency (EE%) of 14–18% can be achieved. We clearly confirmed that the molecular weight of the stabilizer thus its structure greatly controls the drug release from the PLGA carrier particles. It can be determined that ~20% and ~70% retention is available with the use of PLUR and TWEEN, respectively. This measurable difference can be explained by the fact that the non-ionic PLUR polymer provides a steric stabilization of the carrier particles in the form of a loose shell, while the adsorption of the non-ionic biocompatible TWEEN surfactant results in a more compact and well-ordered shell around the PLGA particles. In addition, the release property can be further tuned by decreasing the hydrophilicity of PLGA by changing the monomer ratio in the range of ~20–60% (PLUR) and 70–90% (TWEEN).

Published

2023

14. Membrane Electrode Assembly for Electrocatalytic CO 2 Reduction: Principle and Application

Author

Zheng Zhang, Xin Huang, Zhou Chen, Junjiang Zhu, Balázs Endrődi, Csaba Janáky, and Dehui Deng

Subjects

01.04. Kémiai tudományok, General Chemistry, General Medicine, Catalysis

Abstract

Electrocatalytic CO2 reduction reaction (CO2RR) in membrane electrode assembly (MEA) systems is a promising technology. Gaseous CO2 can be directly transported to the cathode catalyst layer, leading to enhanced reaction rate. Meanwhile, there is no liquid electrolyte between the cathode and the anode, which can help to improve the energy efficiency of the whole system. The remarkable progress achieved recently points out the way to realize industrially relevant performance. In this review, we focus on the principles in MEA for CO2RR, focusing on gas diffusion electrodes and ion exchange membranes. Furthermore, anode processes beyond the oxidation of water are considered. Besides, the voltage distribution is scrutinized to identify the specific losses related to the individual components. We also summarize the progress on the generation of different reduced products together with the corresponding catalysts. Finally, the challenges and opportunities are highlighted for future research.

Published

2023

15. Promising Bioactivity of Vitamin B1-Au Nanocluster: Structure, Enhanced Antioxidant Behavior, and Serum Protein Interaction

Author

Ditta Ungor, Gyöngyi Gombár, Ádám Juhász, Gergely F. Samu, and Edit Csapó

Subjects

Physiology, Clinical Biochemistry, 01.04. Kémiai tudományok, thiamine, gold nanocluster, ORAC, ABTS assay, bovine serum albumin binding, Cell Biology, Molecular Biology, Biochemistry

Abstract

In the current work, we first present a simple synthesis method for the preparation of novel Vitamin-B1-stabilized few-atomic gold nanoclusters with few atomic layers. The formed nanostructure contains ca. eight Au atoms and shows intensive blue emissions at 450 nm. The absolute quantum yield is 3%. The average lifetime is in the nanosecond range and three main components are separated and assigned to the metal–metal and ligand–metal charge transfers. Based on the structural characterization, the formed clusters contain Au in zero oxidation state, and Vitamin B1 stabilizes the metal cores via the coordination of pyrimidine-N. The antioxidant property of the Au nanoclusters is more prominent than that of the pure Vitamin B1, which is confirmed by two different colorimetric assays. For the investigation into their potential bioactivity, interactions with bovine serum albumin were carried out and quantified. The determined stoichiometry indicates a self-catalyzed binding, which is almost the same value based on the fluorometric and calorimetric measurements. The calculated thermodynamic parameters verify the spontaneous bond of the clusters along the protein chain by hydrogen bonds and electrostatic interactions.

Published

2023

16. Rational Mitomycin Nanocarriers Based on Hydrophobically Functionalized Polyelectrolytes and Poly(lactide-co-glycolide)

Author

Łukasz Lamch, Kazimiera A. Wilk, Imre Dékány, Ágota Deák, Viktória Hornok, and László Janovák

Subjects

01.04. Kémiai tudományok, Electrochemistry, General Materials Science, Surfaces and Interfaces, Condensed Matter Physics, Spectroscopy

Published

2022

17. Stereoselective Synthesis and Applications of Pinane-Based Chiral 1,4-Amino Alcohol Derivatives

Author

Zsolt Szakonyi, Mounir Raji, Tam Minh Le, Antal Csámpai, Viktória Nagy, and István Zupkó

Subjects

01.04. Kémiai tudományok, Organic Chemistry, 03.01. Általános orvostudomány, Catalysis

Abstract

A new library of pinane-based 1,4-amino alcohols was synthesised and utilised as chiral ligands in enantioselective diethylzinc addition to benzaldehyde. Aldol condensation of (+)-nopinone, derived from (–)-β-pinene, with 2-pyridinecarboxaldehyde gave the key intermediate α,β-unsaturated ketone, which was transformed in diastereoselective reduction, followed by hydrogenation, resulting in 1,4-amino alcohols. On the other hand, epoxidation of the α,β-unsaturated ketone, followed by reduction and then hydrogenation of the pyridine ring, afforded a mixture of 4-amino-2,3-epoxy-1-ols. Stereoselective hydride reduction of the epoxy ketone and subsequent condensation of the resulting products with substituted benzyl bromides provided quaternary ammonium salts, which were subjected to hydride reduction and then hydrogenation, affording 4-amino-2,3-epoxy-1-ol derivatives containing an N-benzylpiperidine moiety. The inhibition of nucleophile-initiated opening of the oxirane ring was interpreted by a systematic series­ of comparative Hartree–Fock modelling study using the 6-31+G(d,p) basis set. The antiproliferative activities of 4-amino-2,3-epoxy­-1-ol derivatives were examined, and structure–activity relationships were studied from the aspects of the stereochemistry of the oxirane ring, saturation, and substituent effects on the piperidine ring system.

Published

2022

18. Rapid direct cathodic voltammetric determination of insecticide flonicamid by renewable silver-amalgam film electrode

Author

Olga Vajdle, Sanja Mutić, Sanja Lazić, Zoltán Kónya, Valéria Guzsvány, and Jasmina Anojčić

Subjects

Health, Toxicology and Mutagenesis, 01.04. Kémiai tudományok, Public Health, Environmental and Occupational Health, Soil Science, Environmental Chemistry, Pollution, Waste Management and Disposal, Water Science and Technology, Analytical Chemistry

Abstract

The voltammetric characterisation and determination of insecticide flonicamid (N-cyanomethyl-4-(trifluoromethyl)nicotinamide) were performed for the first time using a simple electrochemical sensor, renewable silver-amalgam film electrode (Hg(Ag)FE). During the development of the direct cathodic square wave voltammetric method (SWV) for the determination of flonicamid, a voltammetric behaviour of a target analyte in aqueous Britton-Robinson buffer solution from pH 2.0 to pH 11.98 was examined. In the investigated pH range, the peak which appeared in the potential span between −0.86 V and −1.56 V vs. saturated calomel electrode depending on the applied pH value was chosen for analytical purposes. As optimal pH for the determination of flonicamid, pH 2.5 was selected. Cyclic voltammetric measurements at pH 2.5 confirmed that the electrode reaction mechanism is an irreversible reduction controlled by the diffusion of flonicamid at Hg(Ag)FE. The optimised Hg(Ag)FE-SWV method resulted in good linearity in the concentration range of 1.96–41.2 µg mL−1 while the relative standard deviation of the method was 0.30%. Flonicamid was successfully determined in commercial formulation Teppeki 500 WG® and spiked river water sample by the developed method using the standard addition procedure. The average value of flonicamid amount found in a commercial formulation based on three repetitions was 497.8 ± 0.9 g kg−1, which is in good agreement with the manufacturer’s declaration (500 ± 25 g kg−1) and with comparative high-performance liquid chromatographic measurements with diode array detection where a found average value of flonicamid content was 497.5 ± 11.5 g kg−1. The obtained results also indicate that the developed SWV procedure using Hg(Ag)FE was appropriate for the determination of flonicamid in a spiked river water sample with the recovery of 92.86% and RSD of 6.19%. © 2022 Informa UK Limited, trading as Taylor & Francis Group.

Published

2022

19. Inhibition of the urea-urease reaction by the components of the zeolite imidazole frameworks-8 and the formation of urease-zinc-imidazole hybrid compound

Author

Norbert Német, Ylenia Miele, Gábor Shuszter, Eszter L. Tóth, János Endre Maróti, Péter János Szabó, Federico Rossi, and István Lagzi

Subjects

Urea-urease reaction, Clock reaction, 01.04. Kémiai tudományok, Inhibition, Material design, Physical and Theoretical Chemistry, Catalysis

Abstract

In the past decade, much effort has been devoted to using chemical clock-type reactions in material design and driving the self-assembly of various building blocks. Urea-urease enzymatic reaction has chemical pH clock behavior in an unbuffered medium, in which the induction time and the final pH can be programmed by the concentrations of the reagents. The urea-urease reaction can offer a new alternative in material synthesis, where the pH and its course in time are crucial factors in the synthesis. However, before using it in any synthesis method, it is important to investigate the possible effects of the reagents on the enzymatic reaction. Here we investigate the effect of the reagents of the zeolite imidazole framework-8 (zinc ions and 2-methylimidazole) on the urea-urease reaction. We have chosen the zeolite imidazole framework-8 because its formation serves as a model reaction for the formation of other metal–organic frameworks. We found that, besides the inhibition effect of the zinc ions which is well-known in the literature, 2-methylimidazole inhibits the enzymatic reaction as well. In addition to the observed inhibition effect, we report the formation of a hybrid urease-zinc-2-methylimidazole hybrid material. To support the inhibition effect, we developed a kinetic model which reproduced qualitatively the experimentally observed kinetic curves.

Published

2022

20. Automated full-dimensional potential energy surface development and quasi-classical dynamics for the HI(X1Σ+) + C2H5 → I(2P3/2) + C2H6 reaction

Author

Cangtao Yin and Gábor Czakó

Subjects

01.04. Kémiai tudományok, General Physics and Astronomy, Physical and Theoretical Chemistry

Abstract

We develop a high-level spin–orbit-corrected analytical ab initio potential energy surface and perform quasi-classical trajectory simulations to study the dynamics of the 9-atomic HI + C2H5 → I + C2H6 reaction in full (21) dimensions.

Published

2022

21. Full-dimensional potential energy surface development and dynamics for the HBr + C2H5 → Br(2P3/2) + C2H6 reaction

Author

Cangtao Yin, Viktor Tajti, and Gábor Czakó

Subjects

01.03. Fizikai tudományok, 01.04. Kémiai tudományok, General Physics and Astronomy, Physical and Theoretical Chemistry

Abstract

A full-dimensional spin–orbit-corrected analytical ab initio potential energy surface is developed and quasi-classical trajectory simulations are performed for the HBr + C2H5 reaction.

Published

2022

22. Enantioselective Michael addition of aldehydes to maleimides catalysed by surface-adsorbed natural amino acids

Author

Viktória Kozma and György Szőllősi

Subjects

01.04. Kémiai tudományok, Catalysis

Abstract

Asymmetric Michael addition of carbonyl compounds to N-substituted maleimides is an important method for obtaining optically pure succinimides, which are important chiral fine chemical intermediates. Environmentally friendly and sustainable procedures require the use of a heterogeneous, recyclable catalyst obtained from natural chirality sources and cheap auxiliaries. Here we report the application of in situ formed chiral inorganic-organic hybrid catalysts using amino acids such as l-phenylalanine and clay minerals or alumina, which were highly active and provided excellent enantioselectivities, up to 99%, in the addition of aldehydes to a large variety of N-substituted maleimides. Examinations indicated the occurrence of the asymmetric reaction on the surface of the recyclable solid hybrid materials. The catalytic materials were examined by thermogravimetry, XRD, FT-IR and Raman spectroscopy, SEM and adsorption experiments. Results of these methods showed that the amino acid is deposited as surface crystallites or intercalated in the layered cation exchangers, which both function as a supply of the chirality source, whereas the reactions are catalysed by the chiral compounds adsorbed on the surface. This catalytic system was used to conveniently prepare chiral succinimides at the gram scale, easily purified by crystallization. Accordingly, these chiral hybrid materials are convenient heterogeneous catalysts for obtaining valuable compounds in high optical purities using natural chirality sources, inorganic solids and ethyl acetate, a green organic solvent.

Published

2022

23. Evaluation of In Vitro Distribution and Plasma Protein Binding of Selected Antiviral Drugs (Favipiravir, Molnupiravir and Imatinib) against SARS-CoV-2

Author

Orsolya Dömötör and Éva A. Enyedy

Subjects

plasma protein binding, binding constants, Organic Chemistry, 01.04. Kémiai tudományok, COVID-19, General Medicine, Catalysis, Computer Science Applications, Inorganic Chemistry, tyrosine kinase inhibitor, proton dissociation, lipophilicity, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

There are a number of uncertainties regarding plasma protein binding and blood distribution of the active drugs favipiravir (FAVI), molnupiravir (MOLNU) and imatinib (IMA), which were recently proposed as therapeutics for the treatment of COVID-19 disease. Therefore, proton dissociation processes, solubility, lipophilicity, and serum protein binding of these three substances were investigated in detail. The drugs display various degrees of lipophilicity at gastric (pH 2.0) and blood pH (pH 7.4). The determined pKa values explain well the changes in lipophilic character of the respective compounds. The serum protein binding was studied by membrane ultrafiltration, frontal analysis capillary electrophoresis, steady-state fluorometry, and fluorescence anisotropy techniques. The studies revealed that the ester bond in MOLNU is hydrolyzed by protein constituents of blood serum. Molnupiravir and its hydrolyzed form do not bind considerably to blood proteins. Likewise, FAVI does not bind to human serum albumin (HSA) and α1-acid glycoprotein (AGP) and shows relatively weak binding to the protein fraction of whole blood serum. Imatinib binds to AGP with high affinity (logK′ = 5.8–6.0), while its binding to HSA is much weaker (logK′ ≤ 4.0). The computed constants were used to model the distribution of IMA in blood plasma under physiological and ‘acute-phase’ conditions as well.

Published

2023

24. Half-Sandwich Rhodium Complexes with Releasable N-Donor Monodentate Ligands: Solution Chemical Properties and the Possibility for Acidosis Activation

Author

János P. Mészáros, Wolfgang Kandioller, Gabriella Spengler, Alexander Prado-Roller, Bernhard K. Keppler, and Éva A. Enyedy

Subjects

organometallic, piano-stool, 01.04. Kémiai tudományok, Pharmaceutical Science, 01.06. Biológiai tudományok, pentamethylcyclopentadienyl, formation constant, anticancer

Abstract

Cancer chemotherapeutics usually have serious side effects. Targeting the special properties of cancer and activation of the anticancer drug in the tumor microenvironment in situ may decrease the intensity of the side effects and improve the efficacy of therapy. In this study, half-sandwich Rh complexes are introduced, which may be activated at the acidic, extracellular pH of the tumor tissue. The synthesis and aqueous stability of mixed-ligand complexes with a general formula of [Rh(η5-Cp*)(N,N/O)(N)]2+/+ are reported, where (N,N/O) indicates bidentate 8-quinolate, ethylenediamine and 1,10-phenanthroline and (N) represents the releasable monodentate ligand with a nitrogen donor atom. UV-visible spectrophotometry, 1H NMR, and pH-potentiometry were used to determine the protonation constants of the monodentate ligands, the proton dissociation constants of the coordinated water molecules in the aqua complexes, and the formation constants of the mixed-ligand complexes. The obtained data were compared to those of the analogous Ru(η6-p-cymene) complexes. The developed mixed-ligand complexes were tested in drug-sensitive and resistant colon cancer cell lines (Colo205 and Colo320, respectively) and in four bacterial strains (Gram-positive and Gram-negative, drug-sensitive, and resistant) at different pH values (5–8). The mixed-ligand complexes with 1-methylimidazole displayed sufficient stability at pH 7.4, and their activation was found in cancer cells with decreasing pH; moreover, the mixed-ligand complexes demonstrated antimicrobial activity in Gram-positive and Gram-negative bacteria, including the resistant MRSA strain. This study proved the viability of incorporating releasable monodentate ligands into mixed-ligand half-sandwich complexes, which is supported by the biological assays.

Published

2023

25. Binding of Ca2+ Ions to Alkylbenzene Sulfonates: Micelle Formation, Second Critical Concentration and Precipitation

Author

Adél Anna Ádám, Szilveszter Ziegenheim, László Janovák, Márton Szabados, Csaba Bús, Ákos Kukovecz, Zoltán Kónya, Imre Dékány, Pál Sipos, and Bence Kutus

Subjects

01.04. Kémiai tudományok, General Materials Science, linear alkylbenzene sulfonate, calcium, surface tension, CMC, critical concentration, precipitation

Abstract

Anionic surfactants, such as sodium linear alkylbenzene sulfonates (NaLAS), are utilized in various fields, including industry, household, and agriculture. The efficiency of their use in aqueous environments is significantly affected by the presence of cations, Ca2+ and Mg2+ in particular, as they can decrease the concentration of the surfactant due to precipitation. To understand cation–sulfonate interactions better, we study both NaLAS colloidal solutions in the presence of CaCl2 and precipitates forming at higher salt concentrations. Upon addition of CaCl2, we find the surface tension and critical micelle concentration of NaLAS to decrease significantly, in line with earlier findings for alkylbenzylsulfonates in the presence of divalent cations. Strikingly, an increase in the surface tension is discernible above 0.6 g L–1 NaLAS, accompanied by the decrease of apparent micelle sizes, which in turn gives rise to transparent systems. Thus, there appears to be a second critical concentration indicating another micellar equilibrium. Furthermore, the maximum salt tolerance of the surfactant is 0.1 g L–1 Ca2+, above which rapid precipitation occurs yielding sparingly soluble CaLAS2∙2H2O.

Published

2023

26. A combinatorial approach to the elastic response of electrospun mats: Architectural framework and single fiber properties

Author

Danvendra Singh, Apurv Sibal, Deepika Sharma, Sumit Sharma, Dániel Sebők, Bhabani K. Satapathy, Parikshit Goswami, Akos Kukovecz, and Amit Rawal

Subjects

Mechanics of Materials, 01.04. Kémiai tudományok, General Materials Science, Instrumentation

Abstract

Electrospun is a unique class of porous and heterogeneous materials with multi-length-scales constituents that offer a rich variety of surface functionalities to serve a host of applications. Upscaling the electrospun materials from the laboratory to the industry is often limited by the lack of understanding of their mechanical properties. Herein, we developed a theoretical framework to predict the elastic constants of the electrospun mats that hinges on the concept of elastic properties of constituent fibers, three-dimensional (3D) alignment of fibers, and local fiber curvature. Enabled by continuum-based micromechanical approaches, this framework successfully pre-dicted the elastic moduli regardless of bead-string morphology and local architectural heterogeneities present within the electrospun mats. The 3D fiber orientation distribution obtained using X-ray nano-computed tomography (nanoCT) analysis served as a key input for the validation of the analytical model. In general, the predicted elastic moduli are in reasonably good agreement with the experimental data of randomly oriented and preferentially aligned polylactic acid (PLA)-based electrospun mats. To demonstrate our analytical model's versatility and reliability, another set of PA6(3)-based electrospun mats has been chosen from the literature for validation purposes. The parametric analysis has been performed to provide a roadmap to improve the elastic moduli of electrospun mats and justify the assumed values of some of the key attributes.

Published

2023

27. From Balloon to Crystalline Structure in the Calcium Phosphate Flow-Driven Chemical Garden

Author

Réka Zahorán, Pawan Kumar, Ágota Deák, Emese Lantos, Dezső Horváth, and Ágota Tóth

Subjects

01.04. Kémiai tudományok, Electrochemistry, General Materials Science, Surfaces and Interfaces, Condensed Matter Physics, Spectroscopy

Abstract

We have studied the calcium phosphate precipitation reaction by producing chemical gardens in a controlled manner using a three-dimensional flow-driven technique. The injection of the phosphate containing solution into the calcium ion reservoir has resulted in structures varying from membranes to crystals. Dynamical phase diagrams are constructed by varying chemical composition and flow rates from which three different growth mechanisms have been revealed. The microstructural analysis by scanning electron microscopy and powder X-ray diffraction confirmed the morpho-logical transition from membrane tubes to crystalline branches upon decreasing pH.

Published

2023

28. The Nuclear Localization Signal of NF-κB p50 Enters the Cells via Syndecan-Mediated Endocytosis and Inhibits NF-κB Activity

Author

Letoha Annamária, Hudák Anett, Bozsó Zsolt, Vizler Csaba, Veres Gábor, Szilák László, and Letoha Tamás

Subjects

01.04. Kémiai tudományok, 03.01. Általános orvostudomány

Abstract

It is well established that cationic peptides can enter cells following attachment to polyanionic membrane components. We report that the basic nuclear localization signal (NLS) of the NF-κB p50 subunit is internalized via lipid raft-dependent endocytosis mediated by heparan sulfate proteoglycans and exerts significant NF-κB inhibitory activities both in vitro and in vivo. In vitro uptake experiments revealed that the p50 NLS peptide (CYVQRKRQKLMP) enters the cytoplasm and accumulates in the nucleus at 37 °C. Depleting cellular ATP pools or decreasing temperature to 4 °C abolished peptide internalization, confirming the active, energy-dependent endocytic uptake. Co-incubation with heparan sulfate or replacing the peptide’s basic residues with glycines markedly reduced the intracellular entry of the p50 NLS, referring to the role of polyanionic cell-surface proteoglycans in internalization. Furthermore, treatment with methyl-β-cyclodextrin greatly inhibited the peptide’s membrane translocation. Overexpression of the isoforms of the syndecan family of transmembrane proteoglycans, especially syndecan-4, increased the cellular internalization of the NLS, suggesting syndecans’ involvement in the peptide’s cellular uptake. In vitro , p50 NLS reduced NF-κB activity in TNF-α-induced L929 fibroblasts and LPS-stimulated RAW 264.7 macrophages. TNF-α-induced ICAM-1 expression of HMEC-1 human endothelial cells could also be inhibited by the peptide. Fifteen minutes after its intraperitoneal injection, the peptide rapidly entered the cells of the pancreas, an organ with marked syndecan-4 expression. In an acute pancreatitis model, an inflammatory disorder triggered by the activation of stress-responsive transcription factors like NF-κB, administration of the p50 NLS peptide reduced the severity of pancreatic inflammation by blocking NF-κB transcription activity and ameliorating the examined laboratory and histological markers of pancreatitis.

Published

2023

29. Local hydrophobicity allows high-performance electrochemical carbon monoxide reduction to C 2+ products

Author

Attila Kormányos, Balázs Endrődi, Zheng Zhang, Angelika Samu, László Mérai, Gergely F. Samu, László Janovák, and Csaba Janáky

Subjects

01.04. Kémiai tudományok

Abstract

Tailoring the hydrophobicity of the cathode gas diffusion electrode mitigates flooding in parallel with enhancing the selectivity of the electrochemical carbon monoxide reduction reaction.

Published

2023

30. Systematic screening of gas diffusion layers for high performance CO2 electrolysis

Author

Angelika Anita Samu, Imre Szenti, Ákos Kukovecz, Balázs Endrődi, and Csaba Janáky

Subjects

01.04. Kémiai tudományok, Materials Chemistry, Environmental Chemistry, General Chemistry, Biochemistry

Abstract

Certain industrially relevant performance metrics of CO2 electrolyzers have already been approached in recent years. The energy efficiency of CO2 electrolyzers, however, is yet to be improved, and the reasons behind performance fading must be uncovered. The performance of the electrolyzer cells is strongly affected by their components, among which the gas diffusion electrode is one of the most critical elements. To understand which parameters of the gas diffusion layers (GDLs) affect the cell performance the most, we compared commercially available GDLs in the electrochemical reduction of CO2 to CO, under identical, fully controlled experimental conditions. By systematically screening the most frequently used GDLs and their counterparts differing in only one parameter, we tested the influence of the microporous layer, the polytetrafluoroethylene content, the thickness, and the orientation of the carbon fibers of the GDLs. The electrochemical results were correlated to different physical/chemical parameters of the GDLs, such as their hydrophobicity and surface cracking.

Published

2023

31. Environmental-Friendly Economical Cordierite-Mullite-based Ceramics for Kiln Furniture Production and Supports for CO2 Hydrogenation towards C5+ fuels

Author

Tamás Boldizsár, Henrik Bali, Imre Szenti, Imre Sebők-Papp, Zsolt Bán, Sára Herczeg, Gábor Barna, András Sápi, Ákos Kukovecz, and Zoltán Kónya

Subjects

01.04. Kémiai tudományok, Materials Chemistry, Ceramics and Composites

Published

2023

32. Microplastics as an adsorption and transport medium for per- and polyfluoroalkyl substances in aquatic systems: Polystyrene and undecafluorohexanoic acid interactions

Author

Bere Katalin, Xiong Xiong, Sáringer Szilárd, Douglas Grant, and Szilágyi István

Subjects

01.04. Kémiai tudományok

Published

2023

33. Confinement of Triple-Enzyme-Involved Antioxidant Cascade in Two-Dimensional Nanostructure

Author

Adel Szerlauth, Árpád Varga, Tamara Madácsy, Dániel Sebők, Sahra Bashiri, Mariusz Skwarczynski, Istvan Toth, József Maléth, and Istvan Szilagyi

Subjects

General Chemical Engineering, ddc:540, 01.04. Kémiai tudományok, Biomedical Engineering, General Materials Science

Abstract

ACS materials letters 5(2), 565 - 573 (2023). doi:10.1021/acsmaterialslett.2c00580, Application of antioxidant enzymes in medical or industrial processes is limited due to their high sensitivity to environmental conditions. Incorporation of such enzymes in nanostructures provides a promising route to obtain highly efficient and robust biocatalytic system to scavenge reactive oxygen species (ROS). Here, this question was addressed by confinement of superoxide dismutase (SOD), horseradish peroxidase (HRP), and catalase (CAT) enzymes into nanostructures containing polyelectrolyte building blocks (alginate (Alg) and trimethyl chitosan (TMC)) and delaminated layered double hydroxide (dLDH) nanoparticle support. The nanocomposite possessed excellent structural and colloidal stability, while antioxidant tests revealed that the enzymes remained active upon immobilization and the developed composite greatly reduced intracellular oxidative stress in two-dimensional cell cultures. Moreover, it effectively prevented hydrogen peroxide-induced double stranded DNA breaks, which is a common consequence of oxidative stress. The results provide important tools to design complex nanostructures with multienzymatic antioxidant activities for ROS scavenging., Published by ACS Publications, Washington, DC

Published

2023

34. Effect of salinity on solution properties of a partially hydrolyzed polyacrylamide

Author

Zsófia Vargáné Árok, Szilárd Sáringer, Dóra Takács, Coline Bretz, Ádám Juhász, and Istvan Szilagyi

Subjects

01.04. Kémiai tudományok, Materials Chemistry, Physical and Theoretical Chemistry, Condensed Matter Physics, Spectroscopy, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2023

35. Dual functionality of ferrocene-based metallopolymers as radical scavengers and nanoparticle stabilizing agents

Author

Alsharif Nizar Bilal Saleem, Halmágyi Tibor, Hempenius Mark A., Vancso Julius G., Nardin Corinne, and Szilágyi István

Subjects

01.04. Kémiai tudományok

Abstract

The beneficial redox properties of ferrocene-based polymers have been utilized during in situ preparation of metallic nanoparticles, while such redox features also indicate great promise in applications as free radical...

Published

2023

36. Quantitative elemental mapping of biological tissues by laser-induced breakdown spectroscopy using matrix recognition

Author

Janovszky Patrick, Kéri Albert, Palásti Dávid J., Brunnbauer Lukas, Domoki Ferenc, Limbeck Andreas, and Galbács Gábor

Subjects

01.04. Kémiai tudományok, 03.01. Általános orvostudomány

Abstract

The present study demonstrates the importance of converting signal intensity maps of organic tissues collected by laser-induced breakdown spectroscopy (LIBS) to elemental concentration maps and also proposes a methodology based on machine learning for its execution. The proposed methodology employs matrix-matched external calibration supported by a pixel-by-pixel automatic matrix (tissue type) recognition performed by linear discriminant analysis of the spatially resolved LIBS hyperspectral data set. On a swine (porcine) brain sample, we successfully performed this matrix recognition with an accuracy of 98% for the grey and white matter and we converted a LIBS intensity map of a tissue sample to a correct concentration map for the elements Na, K and Mg. Found concentrations in the grey and white matter agreed the element concentrations published in the literature and our reference measurements. Our results revealed that the actual concentration distribution in tissues can be quite different from what is suggested by the LIBS signal intensity map, therefore this conversion is always suggested to be performed if an accurate concentration distribution is to be assessed.

Published

2023

37. Investigation of Different Pre-Treatment Techniques and 3D Printed Turbulence Promoter to Mitigate Membrane Fouling in Dairy Wastewater Module

Author

Szabolcs Kertész, Aws N. Al-Tayawi, Gréta Gergely, Bence Ott, Nikolett Sz. Gulyás, Zoltán Jákói, Sándor Beszédes, Cecilia Hodúr, Tamás Szabó, and Zsuzsanna László

Subjects

01.04. Kémiai tudományok, General Materials Science, membrane fouling mitigation, 3DP turbulence promoter, ultrafiltration, pre-treatments, dairy wastewater treatment

Abstract

This study investigates the enhancement of dairy wastewater treatment using chemical and physical pre-treatments coupled with membrane separation techniques to reduce membrane fouling. Two mathematical models, namely the Hermia and resistance-in-series module, were utilized to comprehend the mechanisms of ultrafiltration (UF) membrane fouling. The predominant fouling mechanism was identified by fitting experimental data into four models. The study calculated and compared permeate flux, membrane rejection, and membrane reversible and irreversible resistance values. The gas formation was also evaluated as a post-treatment. The results showed that the pre-treatments improved UF efficiency for flux, retention, and resistance values compared to the control. Chemical pre-treatment was identified as the most effective approach to improve filtration efficiency. Physical treatments after microfiltration (MF) and UF showed better fluxes, retention, and resistance results than ultrasonic pre-treatment followed by UF. The efficacy of a three-dimensionally printed (3DP) turbulence promoter was also examined to mitigate membrane fouling. The integration of the 3DP turbulence promoter enhanced hydrodynamic conditions and increased the shear rate on the membrane surface, shortening filtration time and increasing permeate flux values. This study provides valuable insights into optimizing dairy wastewater treatment and membrane separation techniques, which can have significant implications for sustainable water resource management. The present outcomes clearly recommend the application of hybrid pre-, main- and post-treatments coupled with module-integrated turbulence promoters in dairy wastewater ultrafiltration membrane modules to increase membrane separation efficiencies.

Published

2023

38. Indolo[2,3-e]benzazocines and indolo[2,3-f]benzazonines and their copper(II) complexes as microtubule destabilizing agents

Author

Wittmann Christopher, Dömötör Orsolya, Kuznetcova Irina, Spengler Gabriella, Reynisson Jóhannes, Holder Lauren, Miller Gavin J., Enyedy Éva Anna, Bai Ruoli, Hamel Ernest, and Vladimir Arion

Subjects

01.04. Kémiai tudományok, 01.06. Biológiai tudományok

Abstract

A series of four indolo[2,3-e]benzazocines HL1–HL4 and two indolo[2,3-f]benzazonines HL5–and HL6, as well as their respective copper(II) complexes 1–6 were synthesized and characterized by 1H and 13C NMR spectroscopy, ESI...

Published

2023

39. Synthesis and Catalytic Study of NiAg Bimetallic Core–Shell Nanoparticles

Author

Konrad Wojtaszek, Filip Cebula, Bogdan Rutkowski, Magdalena Wytrwal, Edit Csapó, and Marek Wojnicki

Subjects

bimetallic nanoparticles, core–shell nanoparticles, catalytic properties, methylene blue reduction, kinetic studies, 01.04. Kémiai tudományok, General Materials Science

Abstract

This publication presents the synthesis of core–shell nanoparticles, where the core was Ni, and the shell was a Ag–Ni nano alloy. The synthesis was based on the reduction of Ni and Ag ions with sodium borohydride in the presence of trisodium citrate as a stabilizer. In order to determine the phase composition of the obtained nanoparticles, an XRD study was performed, and in order to identify the oxidation states of the nanoparticle components, an XPS spectroscopic study was performed. The composition and shape of the particles were determined using the HR-TEM EDS test. The obtained nanoparticles had a size of 11 nm. The research on catalytic properties was carried out in the model methylene blue reduction system. The investigation of the catalytic activity of colloids was carried out with the use of UV–Vis spectrophotometry. The Ag–Ni alloy was about ten times more active than were pure silver nanoparticles of a similar size.

Published

2023

40. Structure-activity relationships of LDH catalysts for the glucose-to-fructose isomerisation in ethanol

Author

Karádi Krisztina Anna, Nguyen Tranh-Truc, Ádám Anna Adél, Baán Kornélia, Sápi András, Kukovecz Ákos, Kónya Zoltán, Sipos Pál Miklós, Pálinkó István, and Varga Gábor

Subjects

01.04. Kémiai tudományok

Abstract

Glucose-to-fructose isomerization is the key process in the reaction sequence that can lead to the total conversion of biomass into valuable fine chemicals. However, it is challenging to find an...

Published

2023

41. α-MoO3 with inhibitive properties in Fenton reactions and insights on its general impact on OH radical based advanced oxidation processes

Author

Endre-Zsolt Kedves, Claudiu Fodor, Ákos Fazekas, István Székely, Ákos Szamosvölgyi, András Sápi, Zoltán Kónya, Lucian Cristian Pop, Lucian Baia, and Zsolt Pap

Subjects

01.04. Kémiai tudományok, General Physics and Astronomy, Surfaces and Interfaces, General Chemistry, Condensed Matter Physics, Surfaces, Coatings and Films

Published

2023

42. Deposition of Thin Electroconductive Layers of Tin (II) Sulfide on the Copper Surface Using the Hydrometallurgical Method: Electrical and Optical Studies

Author

Komenda Anna, Wojnicki Marek, Kharytonau Dzmitry, Mordarski Grzegorz, Csapó Edit, and Socha Robert P.

Subjects

01.04. Kémiai tudományok

Abstract

Thin films of tin (II) sulfide (SnS) were deposited onto a 500 µm thick copper substrate by a chemical bath method. The effect of sodium (Na) doping in these films was studied. The synthesis of the films was performed at temperatures of 60, 70, and 80 °C for 5 min. The microstructure of the SnS films analyzed by scanning electron microscopy (SEM) showed a compact morphology of the films deposited at 80 °C. The edges of the SnS grains were rounded off with the addition of a commercial surfactant. The thickness of different SnS layers deposited on the copper substrate was found to be 230 nm from spectroscopic ellipsometry and cross-section analysis using SEM. The deposition parameters such as temperature, surfactant addition, and sodium doping time did not affect the thickness of the layers. From the X-ray diffraction (XRD) analysis, the size of the SnS crystallites was found to be around 44 nm. Depending on the process conditions, Na doping affects the size of the crystallites in different ways. A study of the conductivity of SnS films provides a specific conductivity value of 0.3 S. The energy dispersive analysis of X-rays (EDAX) equipped with the SEM revealed the Sn:S stoichiometry of the film to be 1:1, which was confirmed by the X-ray photoelectron spectroscopy (XPS) analysis. The determined band-gap of SnS is equal to 1.27 eV and is in good agreement with the literature data.

Published

2023

43. Carbon Quantum Dots: The Role of Surface Functional Groups and Proposed Mechanisms for Metal Ion Sensing

Author

Shabbir Hasan, Csapó Edit, and Wojnicki Marek

Subjects

01.04. Kémiai tudományok

Abstract

Carbon dots (CDs) are zero-dimensional nanomaterials composed of carbon and surface groups attached to their surface. CDs have a size smaller than 10 nm and have potential applications in different fields such as metal ion detection, photodegradation of pollutants, and bio-imaging, in this review, the capabilities of CDs in metal ion detection will be described. Quantum confinement is generally viewed as the key factor contributing to the uniqueness of CDs characteristics due to their small size and the lack of attention on the surface functional groups and their roles is given, however, in this review paper, the focus will be on the functional group and the composition of CDs. The surface functional groups depend on two parameters: (i) the oxidation of precursors and (ii) their composition. The mechanism of metal ion detection is still being studied and is not fully understood. This review article emphasizes the current development and progress of CDs, focusing on metal ion detection based on a new perspective.

Published

2023

44. Evolution paths from gray to turquoise hydrogen via catalytic steam methane reforming: Current challenges and future developments

Author

Samrand Saeidi, Sápi András, Khoja Asif Hussain, Najari Sara, Ayesha Mariam, Kónya Zoltán, Asare-Bediako Bernard Baffour, Tatarczuk Adam, Hessel Volker, Keil Frerich J., and Rodrigues Alírio E.

Subjects

01.04. Kémiai tudományok

Published

2023

45. Histidinehydroxamic acid as new biomolecule to produce molecular-like fluorescent gold nanoclusters: Possible mechanisms for metal ion sensing

Author

Gombár Gyöngyi, Simon Péter, Ungor Ditta, Szatmári István, and Csapó Edit

Subjects

01.04. Kémiai tudományok

Published

2023

46. Protein-stabilized bimetallic Au/Ag nanoclusters as fluorescent reporters: Synthesis, characterization and their interactions with biocolloids

Author

Árpád Turcsányi, Ditta Ungor, Marek Wojnicki, and Edit Csapó

Subjects

01.04. Kémiai tudományok, Materials Chemistry, Physical and Theoretical Chemistry, Condensed Matter Physics, Spectroscopy, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials

Published

2023

47. The Effect of Concentration, Temperature, and pH on the Formation of Hyaluronic Acid–Surfactant Nanohydrogels

Author

Seres László, Csapó Edit, Varga Norbert, and Juhász Ádám

Subjects

01.04. Kémiai tudományok

Abstract

The assembly of colloidal hyaluronic acid (HyA, as a polysaccharide) based hydrogel particles in an aqueous medium is characterized in the present paper, with an emphasis on the particular case of nanohydrogels formed by surfactant-neutralized polysaccharide networks. The structural changes and particle formation process of polysaccharide- and cationic-surfactant-containing systems were induced by the charge neutralization ability and the hydrophobic interactions of cetyltrimethylammonium bromide (CTAB) under different conditions. Based on the rheological, light scattering, ζ-potential, turbidity, and charge titration measurements, it can be concluded that the preparation of the HyA-CTAB particles can be greatly controlled. The results indicate that more available negative charges can be detected on the polymer chain at smaller initial amounts of HyA (cHyA < 0.10 mg/mL), where a molecular solution can be formed. The change in the pH has a negligible effect on the formation process (particle aggregation appears at nCTAB/nHyA,monomer~1.0 in every case), while the temperature dependence of the critical micelle concentration (c.m.c.) of CTAB determines the complete neutralization of the forming nanohydrogels. The results of our measurements confirm that after the appearance of stable colloidal particles, a structural change and aggregation of the polymer particles take place, and finally the complete charge neutralization of the system occurs.

Published

2023

48. Exploration the homeostasis of signaling molecules in monocotyledonous crops with different CuO nanoparticle tolerance

Author

Barbara Kacziba, Ádám Szierer, Enikő Mészáros, Andrea Rónavári, Zoltán Kónya, and Gábor Feigl

Subjects

01.04. Kémiai tudományok, Plant Science, Ecology, Evolution, Behavior and Systematics

Published

2023

49. The Influence of Solvents and Colloidal Particles on the Efficiency of Molecular Antioxidants

Author

Bojana Katana, Kata Panna Kókai, Szilárd Sáringer, Adél Szerlauth, Dóra Takács, and István Szilágyi

Subjects

Physiology, Clinical Biochemistry, 01.04. Kémiai tudományok, Cell Biology, Molecular Biology, Biochemistry, molecular antioxidants, solubility, latex, colloidal dispersion, DPPH

Abstract

The radical scavenging activity of three molecular antioxidants (trolox, rutin and ellagic acid) was investigated in different solvents with and without added polymer-based colloidal particles (SL-IP-2). Rutin and ellagic acid showed poor solubility in water, preventing the accurate measurement of the effective antioxidant concentration values, which were determined in ethanol/water (EtOH/H2O) mixtures. The presence of trolox and rutin changed neither the surface charge properties nor the size of SL-IP-2 in these solvents, while significant adsorption on SL-IP-2 was observed for ellagic acid leading to overcharging and rapid particle aggregation at appropriately high antioxidant concentrations in EtOH/H2O. The differences in the radical scavenging capacity of trolox and ellagic acid that was observed in homogeneous solutions using water or EtOH/H2O as solvents vanished in the presence of the particles. Rutin lost its activity after addition of SL-IP-2 due to the larger molecular size and lower exposure of the functional groups to the substrate upon interaction with the particles. The obtained results shed light on the importance of the type of solvent and particle–antioxidant interfacial effects on the radical decomposition ability of molecular antioxidants, which is of crucial importance in industrial processes involving heterogeneous systems.

Published

2022

50. Estradiol-Based Salicylaldehyde (Thio)Semicarbazones and Their Copper Complexes with Anticancer, Antibacterial and Antioxidant Activities

Author

Tatsiana V. Petrasheuskaya, Ferenc Kovács, Nóra Igaz, Andrea Rónavári, Bálint Hajdu, Laura Bereczki, Nóra V. May, Gabriella Spengler, Béla Gyurcsik, Mónika Kiricsi, Éva Frank, and Éva A. Enyedy

Subjects

estradiol hybrids, (thio)semicarbazones, cytotoxicity, solution equilibrium, EPR spectroscopy, X-ray crystal structure, Chemistry (miscellaneous), Organic Chemistry, Drug Discovery, 01.04. Kémiai tudományok, Molecular Medicine, Pharmaceutical Science, Physical and Theoretical Chemistry, Analytical Chemistry

Abstract

A series of novel estradiol-based salicylaldehyde (thio)semicarbazones ((T)SCs) bearing (O,N,S) and (O,N,O) donor sets and their Cu(II) complexes were developed and characterized in detail by 1H and ¹³C nuclear magnetic resonance spectroscopy, UV–visible and electron paramagnetic resonance spectroscopy, electrospray ionization mass spectrometry and elemental analysis. The structure of the Cu(II)-estradiol-semicarbazone complex was revealed by X-ray crystallography. Proton dissociation constants of the ligands and stability constants of the metal complexes were determined in 30% (v/v) DMSO/H2O. Estradiol-(T)SCs form mono-ligand complexes with Cu(II) ions and exhibit high stability with the exception of estradiol-SC. The Cu(II) complexes of estradiol-TSC and its N,N-dimethyl derivative displayed the highest cytotoxicity among the tested compounds in MCF-7, MCF-7 KCR, DU-145, and A549 cancer cells. The complexes do not damage DNA according to both in vitro cell-free and cellular assays. All the Cu(II)-TSC complexes revealed significant activity against the Gram-positive Staphylococcus aureus bacteria strain. Estradiol-TSCs showed efficient antioxidant activity, which was decreased by complexation with Cu(II) ions. The exchange of estrone moiety to estradiol did not result in significant changes to physico-chemical and biological properties.

Published

2022