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1. Neuroprotective Immunity by Essential Nutrient 'Choline' for the Prevention of SARS CoV2 Infections: An in Silico Study by Molecular Dynamics Approach

Author

Chowdhury, Papia and Pathak, Pustak

Subjects
Physics - Biological Physics, Quantitative Biology - Quantitative Methods
Abstract

Prenatal COVID infection is one of the worst affected and least attended aspects of the COVID-19 disease. Like other coronaviruses, CoV2 infection is anticipated to affect fetal development by maternal inflammatory response on the fetus and placenta. Studies showed that higher prenatal choline level in mother's body can safeguard the developing brain of the fetus from the adverse effects of CoV2 infection. Choline is commonly used as food supplement. By virtual screening, molecular docking and molecular dynamics techniques, we have established a strong inhibitory possibility of choline for SARS $\rm{3CL^{pro}}$ protease which may provide a lead for prenatal COVID-19 treatment., Comment: Role cf choline in reducing the effect of Prenatal COVID infection is studied

Published
2020
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4. Paper-and-Pencil vs. Electronic Patient Records: Analyzing Time Efficiency, Personnel Requirements, and Usability Impacts on Healthcare Administration.

Author

Berger, Matthias Fabian, Petritsch, Johanna, Hecker, Andrzej, Pustak, Sabrina, Michelitsch, Birgit, Banfi, Chiara, Kamolz, Lars-Peter, and Lumenta, David Benjamin

Abstract

Background: This study investigates the impact of transitioning from paper and pencil (P&P) methods to electronic patient records (EPR) on workflow and usability in surgical ward rounds. Methods: Surgical ward rounds were audited by two independent observers to evaluate the effects of transitioning from P&P to EPR. Key observations included the number of medical personnel and five critical workflow aspects before and after EPR implementation. Additionally, usability was assessed using the System Usability Scale (SUS) and the Post-Study System Usability Questionnaire (PSSUQ). Results: A total of 192 P&P and 160 EPR observations were analyzed. Physicians experienced increased administrative workload with EPR, while nurses adapted more easily. Ward teams typically consisted of two physicians and three or four nurses. Usability scores rated the system as "Not Acceptable" across all professional groups. Conclusions: The EPR system introduced usability challenges, particularly for physicians, despite potential benefits like improved data access. Usability flaws hindered system acceptance, highlighting the need for better workflow integration. Addressing these issues could improve efficiency and reduce administrative strain. As artificial intelligence becomes more integrated into clinical practice, healthcare professionals must critically assess AI-driven tools to ensure safe and effective patient care. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Polypropylene Blends with m-EPR Copolymers: Mechanical and Rheological Properties

Author

Iztok Švab, Anđela Pustak, Matjaž Denac, Andrijana Sever Škapin, Mirela Leskovac, Vojko Musil, and Ivan Šmit

Subjects
isotactic polypropylene, metallocene ethylene-propylene-based elastomers, blends, mechanical properties, adhesion parameters, Chemistry, QD1-999
Abstract

The effects of two metallocene ethylene-propylene-based elastomers (m-EPR1 and m-EPR2) differing in molecular mass and viscosity on mechanical, rheological and interfacial properties were compared. The m-EPR elastomers were added to iPP in 2.5, 5, 10, 15, and 20 vol.%. Torque values, elongation at break and impact strength measured of the iPP/m-EPR1 blends were higher than the iPP/m-EPR2 blends due to higher molten viscosity of m-EPR1 than m-EPR2 copolymer. Slight differences in Young moduli as well as in tensile strength at yield and at break might indicate that tensile properties of iPP/m-EPR blends were not significantly affected by difference in viscosity or molecular mass, miscibility and spherulite size. Optimization diagrams indicated the metallocene m-EPR copolymers are efficient impact modifiers for polypropylene and showed good balancing of mechanical properties in iPP/m-EPR blends.

Published
2018
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8. Solid-State Dispersions of Platinum in the SnO2 and Fe2O3 Nanomaterials

Author

Edi Radin, Goran Štefanić, Goran Dražić, Ivan Marić, Tanja Jurkin, Anđela Pustak, Nikola Baran, Matea Raić, and Marijan Gotić

Subjects
platinum, hematite, cassiterite, ball-milling, mechanochemical, Fe2O3, Chemistry, QD1-999
Abstract

The dispersion of platinum (Pt) on metal oxide supports is important for catalytic and gas sensing applications. In this work, we used mechanochemical dispersion and compatible Fe(II) acetate, Sn(II) acetate and Pt(II) acetylacetonate powders to better disperse Pt in Fe2O3 and SnO2. The dispersion of platinum in SnO2 is significantly different from the dispersion of Pt over Fe2O3. Electron microscopy has shown that the elements Sn, O and Pt are homogeneously dispersed in α-SnO2 (cassiterite), indicating the formation of a (Pt,Sn)O2 solid solution. In contrast, platinum is dispersed in α-Fe2O3 (hematite) mainly in the form of isolated Pt nanoparticles despite the oxidative conditions during annealing. The size of the dispersed Pt nanoparticles over α-Fe2O3 can be controlled by changing the experimental conditions and is set to 2.2, 1.2 and 0.8 nm. The rather different Pt dispersion in α-SnO2 and α-Fe2O3 is due to the fact that Pt4+ can be stabilized in the α-SnO2 structure by replacing Sn4+ with Pt4+ in the crystal lattice, while the substitution of Fe3+ with Pt4+ is unfavorable and Pt4+ is mainly expelled from the lattice at the surface of α-Fe2O3 to form isolated platinum nanoparticles.

Published
2021
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9. Utjecaj modifikacije višestjenih ugljikovih nanocjevčica na svojstva poliuretana: I. Morfologija i toplinska svojstva

Author

Sanja Lučić Blagojević, Martina Zeljko, and Anđela Pustak

Subjects
poliuretan, ugljikove nanocjevčice, nanokompoziti, morfologija, kristalnost, toplinska svojstva, Chemistry, QD1-999
Abstract

U ovom radu istraživan je učinak dodatka višestjenih ugljikovih nanocjevčica (MWCNT) te MWCNT-a modificiranog skupinama COOH (MWCNT-COOH) u rasponu masenih udjela od 0 do 4 % na svojstva termoplastičnog poliuretana (PU). Uzorci nanokompozita pripravljani su postupkom polaganog sušenja iz smjese poliuretana i nanopunila u acetonu pri sobnoj temperaturi. Učinak dodatka nanopunila na sferolitnu morfologiju poliuretana te raspodijeljenost nanopunila u matrici PU analizirana je optičkom polarizacijskom mikroskopijom. Toplinska svojstva u neizotermnim i izotermnim uvjetima istraživana su diferencijalnom pretražnom kalorimetrijom (DSC). Optička polarizacijska mikroskopija pokazala je da dodatak oba punila razrušava krupnu sferolitnu morfologiju poliuretana. Utvrđeno je da je modificirani MWCNT-COOH bolje dispergiran u masi uzorka nego čisti MWCNT. Rezultati DSC-a pokazali su da u neizotermnim uvjetima do određenog udjela dodatak obje vrste MWCNT-a ubrzava kristalizaciju mekog segmenta poliuretana, pri čemu je ubrzanje kristalizacije izraženije u sustavima s punilom MWCNT. Vrijednosti entalpija kristalizacije pokazuju da punilo MWCNT, unatoč lošijoj raspodijeljenosti u masi uzorka, znatnije ometa kristalizaciju mekog segmenta PU-a nego MWCNT-COOH. U uvjetima izotermne kristalizacije punilo MWCNT također znatnije ubrzava kristalizaciju poliuretana nego MWCNT-COOH.

Published
2017
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11. Catalytic and SERS activity of SPION/Ag and SPION/Au nanostructures synthesized using γ-irradiation

Author

Marić, Ivan, Gotić, Marijan, Pustak, Anđela, Dražić, Goran, Mikac, Lara, and Jurkin, Tanja

Subjects
delta-FeOOH/Au, delta-FeOOH/Ag, hybrid nanoparticles, gamma-irradiation, catalytic activity, SERS
Abstract

In this work, γ-irradiation was used as an effective and environmentally friendly technique for the synthesis of superparamagnetic iron oxide/Ag (SPION/Ag) and iron oxide/Au nanostructures (SPION/Au). Such hybrid particles have promising applications and advantageous properties due to combination of unique magnetic, electric and optical properties. Alkaline iron(III) precursor solutions, with addition of 2- propanol and DEAE dextran, were purged with nitrogen and γ-irradiated to doses of 14 and 75 kGy, resulting in the reduction of Fe3+ to Fe2+ ions and formation of magnetite (14 kGy, 33% reduction) or Fe(OH)2 (75 kGy, 100% reduction). After irradiation, gold (AuNPs) or silver (AgNPs) nanoparticles were attached to the surface of the magnetic NPs by in situ reduction of Au3+ or Ag+ with radiolytically formed Fe2+. At 75 kGy, the simultaneous oxidation of Fe(OH)2 formed on irradiation and reduction of Au3+ or Ag+ (as confirmed by additional irradiation experiments) led to the formation of superparamagnetic feroxyhyte (δ-FeOOH) nanodiscs decorated with well distributed small AuNPs or AgNPs. The synthesized SPION/Au and SPION/Ag showed high catalytic efficiency in reducing the highly toxic organic pollutant 4-nitrophenol to the commercially important substance 4 aminophenol. The catalytic activity depended on concentration and size of Au (Ag) NPs on the surface. The synthesized hybrid NPs also showed promising SERS activity for the detections of low concentrations of organics in aqueous solutions. δ-FeOOH/Ag NPs enabled good SERS enhancement and detection of up to 10-6 M of 4-MBPA. Acknowledgments: This work has been supported by the Croatian Science Foundation under the project UIP-2017-05-7337 (POLRADNANOP), and Croatian-Slovenian project “Radiolytic synthesis of magnetic δ-FeOOH@Au designed for biomedical applications“

Published
2023

12. Factors influencing one-step γ-irradiation synthesis of Ag and Au nanocomposite hydogels

Author

Pustak, Anđela, Marić, Ivan, Mihaljević, Monika, Gotić, Marijan, and Jurkin, Tanja

Subjects
silver nanoparticles, gold nanoparticles : hydrogel nanocomposite, hydrogel, PEO/Ag nanocomposite, gamma-irradiation, one step synthesis
Abstract

Nanocomposite gels are usually synthesized by two- step methods, while the one step synthesis of nanocomposite hydrogels is much less investigated. One-step synthesis takes an advantage of simultaneous crosslinking of polymer chains and reduction of metal cations, which is quicker and simpler, but finding optimal conditions for these reactions to occur simultaneously is crucial. The aim of this study was to investigate the influence of various experimental factors on the ability of the irradiation technique to synthesize PEO/Ag and PEO/Au nanocomposite hydrogels in a single-step, and thus on the properties of synthesized gels. PEO and Ag+ or Au3+ aqueous solutions were γ- irradiated without addition of a scavenger. The dose, atmosphere, pH, concentration of metal salts, and polymer molecular mass and concentration were varied and optimised. The pH and concentration of metal salts were crucial factors in determining the formation of nanocomposite gels vs. suspensions. Neutral pH let to the formation of stable AuNPs colloid solutions, whereas unstable suspensions and bigger AuNPs were obtained at acidic pH. Alkaline conditions and lower metal salt concentrations favored the formation of Ag and Au nanocomposite hydrogels. Synthesis at elevated pH (pH 11 vs. 9), more concentrated PEO solution and inert atmosphere enabled the formation of hydrogels with higher NPs concentration. AgNPs (AuNPs) were embedded within PEO network with homogenous distribution. Smaller NPs were formed at lower concentration of metal salt, higher pH (pH 11 vs. 9) and under nitrogen atmosphere. In addition to the above, dose was significant factor affecting the PEO crosslinking density ; influence of atmosphere was also visible. At 100 kGy nearly amorphous composite gels with significantly reduced melting and crystallization temperatures were obtained. Smaller amount of NPs did not significantly affect the polymer network, with composite gels having slightly higher degree of crystallinity compared to pure PEO gels. The optimal amount was 1 wt% Au3+ to incorporate AuNPs into the gel and maintain or even improve the rheological properties (firmer gels, higher storage moduli, higher yield points and flow points and better recovery) compared to pure PEO gel. Higher amount of AuNPs (5 wt%, 10 wt%) lead to deterioration of gel properties and significant weakening of gel. The synthesized gels were also tested for their catalytic activity for the degradation/reduction of organic contaminants. The gels were showed to be promising catalysts for the reduction of toxic pollutant 4 nitrophenol to 4- aminophenol. Depending on the amount of NPs synthesized within gels the reduction can be completed almost instantaneously. Acknowledgments: This work has been supported by the Croatian Science Foundation under the project UIP-2017-05- 7337 (POLRADNANOP).

Published
2023

13. Static and dynamic magnetic properties of radiolytically synthesized maghemite-based ferrogels

Author

Marić, Ivan, Zadro, Krešo, Novosel Nikolina, Gotić, Marijan, Pustak, Anđela, and Jurkin, Tanja

Subjects
magnetic ferrogels, maghemite, magnetite, superparamagnetic, magnetic properties
Abstract

Polymer hydrogels embedded with magnetic nanoparticles are a novel class of composite materials and they gained a lot of attention in the last two decades due to their interesting properties which combine the viscoelasticity of the polymeric network and the sensitivity of magnetic nanoparticles to the external magnetic field. Although γ- irradiation method is highly suitable for generation of nanoparticles (NPs) in a solution as well as for the formation of three-dimensional polymer network, i.e. hydrogels, the radiolytic syntheses of iron oxide/polymer nanocomposite gels are rarely investigated, especially in the case of one-step synthetic approaches, such as the one used in this work. The radiolytic one-step synthesis resulted in the simultaneous crosslinking of the PEO polymer and the reduction of iron (III) salt. In this work, we performed electron microscopy, XRD, SQUID (ZFC and FC, magnetization-temperature measurements), ac susceptometry and Mössbauer measurements (external magnetic field) to elucidate the structural and magnetic properties of synthesized ferrogels. The particles were identified as magnetite/maghemite and showed that they were < 5 nm in size, superparamagnetic and that there was a significant contribution of surface effects on the magnetic properties of the nanoparticles embedded in the hydrogel. Mössbauer measurements showed that the samples consist of core-shell magnetic structure and large spin canting (32-36°) on the outer layer of the particles. Furthermore, a significant contribution of spin-glass behavior and/or dipole-dipole interactions between the nanoparticles was seen from ac susceptometry and SQUID magnetometry. Acknowledgments: This work has been supported by the Croatian Science Foundation under the project UIP-2017-05-7337 (POLRADNANOP).

Published
2023

14. Rheological, Microstructural and Thermal Properties of Magnetic Poly(Ethylene Oxide)/Iron Oxide Nanocomposite Hydrogels Synthesized Using a One-Step Gamma-Irradiation Method

Author

Ivan Marić, Nataša Šijaković Vujičić, Anđela Pustak, Marijan Gotić, Goran Štefanić, Jean-Marc Grenèche, Goran Dražić, and Tanja Jurkin

Subjects
magnetic hydrogel, gamma-irradiation, poly(ethylene oxide), magnetite, rheological properties, thermal properties, Chemistry, QD1-999
Abstract

Magnetic polymer gels are a new promising class of nanocomposite gels. In this work, magnetic PEO/iron oxide nanocomposite hydrogels were synthesized using the one-step γ-irradiation method starting from poly(ethylene oxide) (PEO) and iron(III) precursor alkaline aqueous suspensions followed by simultaneous crosslinking of PEO chains and reduction of Fe(III) precursor. γ-irradiation dose and concentrations of Fe3+, 2-propanol and PEO in the initial suspensions were varied and optimized. With 2-propanol and at high doses magnetic gels with embedded magnetite nanoparticles were obtained, as confirmed by XRD, SEM and Mössbauer spectrometry. The quantitative determination of γ-irradiation generated Fe2+ was performed using the 1,10-phenanthroline method. The maximal Fe2+ molar fraction of 0.55 was achieved at 300 kGy, pH = 12 and initial 5% of Fe3+. The DSC and rheological measurements confirmed the formation of a well-structured network. The thermal and rheological properties of gels depended on the dose, PEO concentration and initial Fe3+ content (amount of nanoparticles synthesized inside gels). More amorphous and stronger gels were formed at higher dose and higher nanoparticle content. The properties of synthesized gels were determined by the presence of magnetic iron oxide nanoparticles, which acted as reinforcing agents and additional crosslinkers of PEO chains thus facilitating the one-step gel formation.

Published
2020
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16. Correcting the predictions of weather parameters by machine learning techniques

Author

Pustak, Andrej and Capuder, Tomislav

Subjects
model, learning, vlaga, temperatura, vjetar, TEHNIČKE ZNANOSTI. Računarstvo, forecast, korekcija, prediction, strojno, meteorološki, predikcija, numerical, numerički, TECHNICAL SCIENCES. Computing, weather, radijacija, učenje, correction, machine
Abstract

U ovome diplomskom radu napravljene su korekcije predikcija numeričkog meteorološkog modela metodama učenja. Numeričkom modelu je potrebno nekoliko sati da obavi sve kalkulacije od početka pokretanja te mi u međuvremenu dobijemo prava mjerenja. Tu se javlja mogućnost usporedbe tih dobivenih predikcija i dobivenih mjerenja te korekcije ostatka predikcija. Metode strojnog učenje koje su korištene su regresija potpornim vektorima te duboke neuronske mreže. Korekcija je napravljena na pet vremenskih parametara: temperaturi, brzini i smjeru vjetra, sunčevoj radijaciji te relativnoj vlazi zraka. Za svaki od modela strojnog provedena je evaluacija indikatorima uspješnosti kao što su MSE, RMSE i R2 ocjena te su rezultati evaluacije modela strojnog uspoređeni sa evaluacijom predikcija numeričkog meteorološkog modela. The goal of this thesis was to make and evaluate machine learning models whose purpose was correcting the predictions of numerical weather prediction model. Numerical weather prediction takes several hours to fully finish all calculations during which we get true measurements from meteorological stations. That means that when the NWP model releases the results, we have the measurements for the first several hours which we can use to correct the rest of the predictions if necessary. Machine learning methods that were used were support vector regression and deep neural networks. The correction was made for five weather parameters: temperature, wind speed and direction, radiation, and relative humidity. Each of the machine learning models was evaluated using performance indicators like MSE, RMSE and R2 score.

Published
2022

23. Synthesis of magnetic iron oxide/Au and iron oxide/Ag nanostructures using a simple γ-irradiation method

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, Dražić, Goran, and Jurkin, Tanja

Subjects
feroxyhyte/Au, ferroxyhyte/Ag, gamma irradiation, iron oxide nanoparticle, SERS
Abstract

In this work we have used γ-irradiation as an efficient and environmentally friendly technique for the synthesis of magnetic nanoparticles. The γ-irradiation has the advantage of inducing electrons and other reducing species uniformly in the sample. The alkaline aqueous iron(III)chloride solutions were purged with nitrogen and γ-irradiated with the addition of 2-propanol. DEAE-dextran was used as a growth and stabilizing agent for MNPs in suspensions. The phase composition, stoichiometry, and morphology of MNPs were controlled by adjusting the γ-irradiation dose. Irradiation with doses of 10-36 kGy resulted in the formation of 4 nm spherical sub-stoichiometric magnetite NPs, while at higher doses (50 kGy or more) the main phase was magnetic δ-FeOOH (feroxyhyte) in the form of nanodiscs. Magnetic measurements revealed superparamagnetic behavior of magnetite NPs and exceptional intrinsic magnetic properties of δ-FeOOH nanostructures at room temperature with a Curie temperature above 300 K. Reduction of Fe3+ to Fe2+ ions was quantitatively determined using 1, 10-phenanthroline spectrophotometric method. The reduction is rapid in the initial stages of irradiation (~65% of Fe3+ is reduced up to 30 kGy), then slows down and reaches 100% at ~75 kGy. The reduction power of Fe2+ in irradiated suspensions was explored to synthesize iron oxide/Au nanostructures by adding aqueous HAuCl4 solutions to the irradiated suspensions. Microstructural and morphological analysis showed that the simultaneous oxidation of Fe(OH)2 and reduction of Au3+ led to the formation of δ-FeOOH nanodiscs decorated with small spherical Au nanoparticles. The density and size of AuNPs on the surface of nanodiscs depended on the concentration of added aqueous HAuCl4 solution. The same procedure was used for the synthesis of δ-FeOOH nanodiscs with AgNPs on the surface. The synthesized magnetic nanoparticles were tested for their SERS and catalytic activity.

Published
2022

24. Gamma-radiolytic synthesis of different nanomaterials with potential biomedical applications

Author

Jurkin, Tanja, Marić, Ivan, Pustak, Anđela, and Gotić, Marijan

Subjects
gamma-irradiation, gold nanoparticles, magnetic iron oxide nanoparticles, PEO/Au nanocomposite gels, magnetic gels, cytotoxicity
Abstract

The only gamma irradiation facility in Croatia is a panoramic batch-type dry storage 60Co gamma irradiator, located at the Radiation Chemistry and Dosimetry Laboratory (RCDL) at Ruđer Bošković Institute (RBI) in Zagreb. This irradiator is used for the synthesis of magnetic and noble metal nanoparticles (NPs), as well as their nanocomposite hydrogels. Gold and superparamagnetic iron oxide NPs have been used in various fields in biomedicine: as contrast agents in diagnostics, in drug delivery, as radiosensitization agents, biosensors, for hyperthermia cancer treatments etc. On the other hand, ferrogels (magnetic-field-sensitive gels) and Au and Ag NPs containing hydrogels have potential applications as wound dressings, artificial muscles, for bone and cardiac tissue regeneration etc. The applications of NPs depend on physicochemical parameters such as NPs size, surface, phase composition and stability, which can be controlled by synthesis method. At RCDL different g-irradiation assisted methods for the synthesis of NPs in the presence of polymers and small organic molecules, and in microcompartments, were used to control NPs size and stability. Superparamagnetic magnetite and gold NPs were synthesized by microemulsion method, and the reducing conditions, NPs size, composition and stoichiometry controlled by γ-irradiation dose, dose rate, atmosphere and pH. AuNPs were synthesized by a citrate-radiolytical method and compared to the classical citrate method. Polymer present and its ability to stabilize Fe(III) precursor NPs strongly influenced the reduction of Fe(III). High reduction, in the case of DEAE-dextran, resulted in superparamagnetic magnetite NPs at lower doses, and superparamagnetic δ-FeOOH nano-discs at above 50 kGy. In addition, Au, Ag and magnetic nanocomposite hydrogels were synthesized by one step g-irradiation technique, by simultaneous crosslinking of polymer chains and reduction of metal cations/metal oxide precursors, with promising thermal and rheological properties for further application.

Published
2022

25. Experimental factors that may influence the γ- irradiation synthesis of magnetic iron oxide nanomaterials

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, and Jurkin, Tanja

Subjects
magnetic hydrogel, gamma-irradiation, poly(ethyleneoxide), dextran, poly(vinylpyrrolidone), Fe(II)determination, XRD
Abstract

Magnetic iron oxides are used for various applications, such as pigments, catalysts, in drug delivery, and hyperthermia cancer treatments. The chemistry of iron oxides is very diverse, due to the high versatility of iron in aqueous media. Two stable oxidation states (+2 and +3) and their relative concentrations and properties in aqueous media profoundly affect the end product of the synthesis. Although the chemistry of iron oxides is relatively complex, there are numerous works concerning their synthesis and characterizations. On the other hand, the radiolytic synthesis of magnetic iron oxide nanoparticles is much less investigated. Generally, γ-irradiation synthesis is an attractive and ecologically friendly technique for the synthesis of various nanomaterials including magnetic ones. It has the advantage of inducing electrons and other reducing species homogeneously throughout the system. The properties of the final magnetic material crucially depend on the particle size, dispersion, and aggregation. Various polymers can be used as stabilizers of magnetic nanoparticles in suspensions and as growth and surface modifiers. In this work, iron(III) chloride deaerated alkaline aqueous suspensions were γ-irradiated in the presence of 2-propanol and polymer stabilizer. We investigated the effect of different polymers (dextran and its cationic (DEAE-dextran) and anionic (dextran sulfate) derivatives, poly(ethylene oxide) (PEO), polyvinylpyrrolidone (PVP) and poly(vinyl alcohol) (PVA). Furthermore, the effect of irradiation dose, pH, polymer molecular mass and concentration, iron(III) precursor and 2-propanol concentration on the reduction of iron(III) to iron(II) upon irradiation, as well as the accompanied phase transformation of iron(III) precursor was investigated. The variation of experimental conditions strongly influenced the amount of reduced iron(III), and subsequently the phase composition, morphology, and size of formed nanoparticles. The higher pH values (12 vs. 9) contributed to a better reduction of Fe(III) in the presence of PEO, while the opposite behavior was observed for all other polymers. The initial concentration of DEAE- dextran significantly affected the reduction ; complete reduction occurred at 0.35% polymer concentration, whereas it decreased by ~40% when DEAE-dextran concentration was 10%, at the same dose. Average molecular mass had almost no effect in the case of dextran (40.000 vs. 500.000), whereas a small improvement of reduction was observed for lower molecular mass PEO (35.000 vs. 400.000). Iron(III) precursor and 2-propanol concentration also influenced reduction and phase composition. Furthermore, dextran polymers, especially DEAE-dextran, completely stabilize the precursor particles forming colloidal solutions before irradiation. In the case of DEAE-dextran, the phase composition of formed nanoparticles was predominantly magnetite or magnetic δ-FeOOH nanoparticles depending on the absorbed dose. In the case of dextran sulfate, a multiphasic system was obtained in all cases. On the other hand, upon irradiation in the presence of PEO, PVP, and PVA, the magnetic suspensions or magnetic nanocomposite hydrogels were formed depending on the initial conditions. Due to the lower reduction achieved in the case of PEO and PVP, magnetite and goethite were the predominant phases even at very high doses.

Published
2022

26. Synthesis of magnetic iron oxide/Au nanostructures using the γ-irradiation method

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, Dražić, Goran, Jurkin, Tanja, and The Miller Trust Committee

Subjects
gamma-irradiation, iron oxides, feroxyhyte, gold nanoparticles, hybrid nanostructures, HRTEM
Abstract

Superparamagnetic iron oxide nanoparticles (MNPs) due to their unique magnetic and electrical properties have applications as biosensors, contrast agents, in drug delivery and for hyperthermia cancer treatments. For these uses, the surface of the particles should be modified with a suitable coating. Gold is one of the favored coatings because it is non-toxic, biocompatible, chemically inert, can protect MNPs from oxidation without significantly reducing magnetic properties and enables surface functionalization. It also has special optical properties. Such composite nanostructures have promising applications and advantageous properties compared to individual Au and MNPs. In this work we have used γ-irradiation as an efficient and ecologically friendly technique for the synthesis of magnetic nanoparticles. γ-irradiation has an advantage of inducing electrons and other reducing species homogeneously throughout the sample. The iron(III) chloride alkaline aqueous solutions were purged with nitrogen and γ-irradiated with addition of 2-propanol. DEAE-dextran was used as growth and stabilizing agent of MNPs in suspensions. The phase composition, stoichiometry, and morphology of MNPs were controlled by adjusting γ-irradiation dose. Irradiation with doses 10-36 kGy resulted in the formation of 4 nm spherical substoichiometric magnetite NPs, whereas at higher dose (50 kGy or more) the major phase was magnetic δ-FeOOH (feroxyhyte) in the form of nanodiscs. The reduction of Fe3+ to ferrous Fe2+ ions was quantitatively determined using the 1, 10 phenanthroline spectrophotometric method. The reduction proceeds fast in the beginning stages of irradiation (up to 30 kGy, ~65% Fe3+ reduced), slows down, and reaches 100% reduction at ~75 kGy. The reducing power of Fe2+ in irradiated suspensions was explored to synthesize composite iron oxide/Au nanostructures by the addition of aqueous solutions of HAuCl4 into the irradiated suspensions. Microstructural and morphological analysis showed that the simultaneous oxidation of Fe(OH)2 and reduction of Au3+ resulted in the formation of composite δ-FeOOH nanodiscs decorated with spherical Au nanoparticles. The density and size of Au NPs depended on the amount of added HAuCl4 aqueous solution.

Published
2022

27. Usporedba vučnog proračuna cestovnog vozila MB 170 S i MB G 500

Author

Pustak, Tomislav

Subjects
vučni proračun, Mercedes-Benz 170 S, Mercedes G 500
Abstract

Vučnim proračunom izračunavaju se maksimalne brzine kretanja vozila i maksimalni usponi koje vozila mogu savladati u ovisnosti o svojim karakteristikama i uvjetima na cesti. U završnom radu napravljena je usporedba vučnog proračuna vozila Mercedes-Benz 170 S i Mercedes G 500. Za oba vozila proračunati su svi otpori koji se javljaju prilikom kretanja. Također, proračunata je vučna sila, te je izrađen vučni dijagram. Sile otpora i vučne sile grafički su prikazane u dijagramima. Za izradu vučnog proračuna i grafičkih prikaza korišten je program Microsoft Excel.

Published
2022

28. A γ-irradiation method for the synthesis of iron oxide/Au nanostructures

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, and Jurkin, Tanja

Subjects
feroxyhyte/Au nanostructures, superparamagnetic nanoparticles, iron oxides, gamma-irradiation, catalytic activity, 4-nitrophenol
Abstract

Magnetic iron oxide nanoparticles (MNPs) due to their unique magnetic and electrical properties have applications as sensors, contrast agents, in drug delivery, hyperthermia cancer treatments, etc. For these uses, the surface of the particles should be modified with a suitable surface coating that can easily bind the appropriate biomolecules for the selected application. Gold has become one of the favored coatings because it is non-toxic, biocompatible, chemically inert, and can protect MNPs from oxidation without significantly reducing magnetic properties. Gold enables the surface functionalization with various organic species (due to strong Au-S bond). Magnetic composite or core@shell Fe-oxide/Au nanoparticles have an advantage in the applications due to the combined magnetic properties of the core and the unique optical properties of the Au coating. However, the properties, functionality, and thus the application of magnetic iron oxide/Au NPs, depends on their size, shape, magnetic properties, and colloidal stability. In addition, the quality and homogeneity of the gold coatings significantly depend on the coating process, in this case, the radiolytic process. γ-irradiation has an advantage of inducing electrons and other reducing species homogeneously through the sample. In this work, we have used γ-irradiation as an attractive and ecologically friendly technique for the synthesis of magnetic composite nanoparticles at room temperature. We have systematically studied the influence of γ-irradiation dose. The MNPs were synthesized from N2-purged, iron(III) chloride alkaline aqueous suspensions by γ- irradiation up to doses of 130 kGy (27 kGy/h) with the addition of 2-propanol, while the composite iron oxide/Au nanostructures were synthesized by the addition of HAuCl4. DEAE-dextran was used as a growth and stabilizing agent of MNPs in suspensions. During irradiation, iron(III) reduces to iron(II) depending on the absorbed dose. This radiolytic reduction is accompanied by phase transformations of the iron oxide precursor suspension. The addition of HAuCl4 aqueous solution induced the formation of Au nanoparticles on the surface of MNPs. The phase composition, stoichiometry, and morphology of MNPs were controlled by adjusting the γ-irradiation dose. Irradiation with doses 10– 36 kGy resulted in the formation of very small 4 nm spherical superparamagnetic substoichiometric magnetite NPs, whereas at a higher dose (50 kGy or more) the major phase was magnetic δ-FeOOH (feroxyhyte) in the form of nanodiscs. The magnetic measurements showed superparamagnetic behavior of magnetite NPs and exceptional intrinsic room-temperature magnetic properties of δ-FeOOH nanostructures with the Curie temperature above 300 K. The Au nanoparticles formed were spherical ; the quantity and size of Au nanoparticles depended on the amount of initially added HAuCl4 aqueous solution. Au nanoparticle size ranged from 6 nm to 27 nm, established by UV- Vis spectroscopy and electron microscopy. In this way, it was possible to obtain magnetic spherical magnetite and spherical Au nanoparticles, and thin disc δ-FeOOH/Au nanostructures from the same starting suspension by varying just one experimental factor: the absorbed dose.

Published
2022

29. γ-irradiation synthesis of magnetic iron oxide and iron oxide nanostructures decorated with Au or Ag nanoparticles

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, Dražić, Goran, Zadro, Krešo, and Jurkin, Tanja

Subjects
iron oxide, iron oxide nanoparticles, Au nanoparticles, Ag nanoparticles, γ-irradiation
Abstract

Superparamagnetic iron oxide nanoparticles (SPIONs) due to their unique magnetic (superparamagnetism and high saturation field) and electrical properties have applications as sensor, contrast agents, in drug delivery and for hyperthermia cancer treatments. These nanoparticles (NPs) can be modified with noble metal NPs, which combines the magnetic and biocompatible properties of SPIONs and the optical properties of noble metal NPs. In this work we used -irradiation as an attractive and ecologically friendly technique for the synthesis of magnetic NPs at room temperature. -irradiation has an advantage of inducing electrons and other reducing species homogeneously through the sample. The FeCl3 alkaline aqueous solutions were purged with N2 and irradiated with addition of 2- propanol. DEAE-dextran was used as growth and stabilizing agent of MNPs. The phase composition, stoichiometry and morphology of MNPs were controlled by adjusting γ-irradiation dose and dose rate. Doses 10-36 kGy resulted in the formation of small 4 nm spherical substoichiometric magnetite NPs, whereas at higher dose (50 kGy or more) the major phase was magnetic -FeOOH (feroxyhyte) in the form of nanodiscs, as confirmed by SEM, HRTEM, XRD and electron diffraction. The magnetic measurements revealed superparamagnetic behaviour of magnetite NPs and exceptional intrinsic room-temperature properties of -FeOOH with Curie temperature above 300 K. The reduction of Fe3+ to Fe2+ ions was determined using 1, 10-phenanthroline spectrophotometric method. Reduction proceeds fast in the beginning stage of irradiation (up to 30 kGy, 65% Fe3+ reduced), slows down and reaches 100% reduction at 75 kGy. The reducing power of Fe2+ in irradiated suspensions was explored to synthesize composite nanostructures by addition of aqueous solutions of HAuCl4 or AgNO3 in irradiated suspensions. Microstructural and morphological analysis showed that simultaneous oxidation of Fe(OH)2 and reduction of Au3+ or Ag+ resulted in the formation of composite δ-FeOOH nanodiscs decorated with spherical Au or Ag nanoparticles.

Published
2022

30. Gamma-irradiation synthesis of magnetic iron oxide nanoparticles, gels and magnetic Au and Ag nanostructures

Author

Jurkin, Tanja, Marić, Ivan, Pustak, Anđela, Gotić, Marijan, and Horne, Gregory

Subjects
magnetic iron oxides, magnetite, feroxyhyte, magnetic gels, gamma radiation, magnetic feroxyhyte-Au nanodiscs
Abstract

Magnetic iron oxide nanoparticles (MIONPs) and their magnetic gels are versatile materials, but their radiolytic synthesis has hardly been studied. We have used γ-irradiation as a powerful technique for the synthesis of MIONPs of controlled size, shape and phase composition, as well as for one-step synthesis of magnetic gels. To control the size and stability of MIONPs, the synthesis was carried out in a microemulsion and in the presence of polymers. The γ-irradiation dose and dose rate affected the stoichiometry and size of the magnetite NPs synthesized in the microemulsion. The polymer had a pronounced effect on the reduction conditions and the final product obtained upon irradiation of Fe(III) precursor suspensions. In the presence of DEAE-dextran highly concentrated ferrofluids with 4 nm spherical, superparamagnetic magnetite NPs were produced at 10-36 kGy. At 75 kGy, the complete reduction of Fe3+ to Fe2+ resulted in the magnetic δ-FeOOH nanodiscs. The reducing power of Fe2+ formed was explored to synthesize composite iron oxide/Au and Ag nanostructures. The simultaneous oxidation of Fe(OH)2 and reduction of Au3+ or Ag+ led to the formation of δ-FeOOH nanodiscs decorated with Au or Ag NPs. The synthesized NPs were tested for SERS and catalytic activity. On the other hand, when irradiated in the presence of PEO and PVP, a lower reduction was obtained and magnetic suspensions or magnetic nanocomposite hydrogels were formed depending on the initial conditions. This result is the first report of γ- irradiation synthesis of magnetic hydrogels in a single step. More amorphous and stronger gels were formed at higher dose and Fe(III) precursor concentration. The synthesized MIONPs acted as reinforcing agent and additional crosslinkers of polymer chains. The gels exhibited good self- recoverable properties and superparamagnetic behavior even at very low temperatures. Acknowledgments: This work has been supported by the Croatian Science Foundation under the project UIP-2017-05-7337 (POLRADNANOP).

Published
2022

31. Magnetic and rheological properties of poly(ethylene oxide)/iron oxide nanocomposite hydrogels synthesized using a one-step γ- radiolytic method

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, Greneche, Jean-Marc, Zadro, Krešo, Šijaković Vujičić, Nataša, and Jurkin, Tanja

Subjects
magnetic hydrogel, gamma-irradiation, poly(ethyleneoxide), magnetite, rheological properties, Mössbauer spectrometry
Abstract

Magnetic polymer gels are a new promising class of nanocomposite gels with numerous potential applications as effective absorbents of toxic ions in water, in soft actuators such as artificial muscles, in tissue engineering, drug delivery, hyperthermia applications, etc. In this work, the magnetic and rheological properties of radiologically synthesized magnetic PEO/iron oxide hydrogels were systematically investigated. Magnetic PEO/iron oxide nanocomposite hydrogels were for the first time synthesized by a one-step γ-irradiation method starting from poly(ethylene oxide) (PEO) and iron(III) suspensions, followed by the simultaneous crosslinking of PEO chains and reduction of Fe(III) precursor. Magnetic hydrogels with embedded magnetite nanoparticles were obtained with 2-propanol and at high doses, as confirmed by XRD, SEM, TEM and Mössbauer spectroscopy. Rheological measurements confirmed the formation of a well-structured network. The rheological properties of the gels depended on the dose, PEO concentration and the amount of nanoparticles synthesized in the gels (initial Fe3+ content). Stronger gels with higher degree of intermolecular crosslinking were formed at higher dose and higher nanoparticle content. Magnetic iron oxide nanoparticles acted as reinforcing agents and additional crosslinkers of PEO chains facilitating gel formation in one step. All gels exhibited very good self-recoverable properties. SQUID magnetization measurements and Mössbauer spectroscopy showed that the samples exhibited superparamagnetic behavior even at very low temperatures. However, preliminary ac susceptibility measurements showed a deviation from Arrhenius' law ; the relaxation times of the composite hydrogels are unphysically small, suggesting that the particles interact with each other. Furthermore, in-field Mössbauer spectroscopy showed that the samples exhibit spin- canting phenomenon, presumably at the nanoparticle surface, forming a magnetically disordered shell with a ferrimagnetically ordered core.

Published
2022

32. Impact of modern knowledge development to the topic of pressure ulcers

Author

Pustak, Sabrina

Subjects
pressure ulcer, decubitus, Weiterbildung, nurse, Dekubitus, Krankenpfleger, Prävention, computerunterstützter Unterricht, pressure injur, Gesundheitspersonal, e-learning
Abstract

Hintergrund: Einer der wichtigen Themenbereiche in der Pflege ist Dekubitusprophylaxe, denn druckgefährdete Personen sind in allen Gesundheitseinrichtungen anzutreffen. Durch Zunahme von Bildungsinterventionen sinken die Prävalenzzahlen von Druckverletzungen bei PatientInnen von 4,4% auf 2,9%. Somit ist Fortbildung ein Qualitätsindikator. Die Entwicklung von nachhaltigem Dekubitus-Wissen ist von kontinuierlicher Relevanz für das pflegerische Ergebnis und fördert die PatientInnensicherheit.Forschungsfrage: Welchen Effekt haben Dekubitus E-Learning-Programme im Vergleich zum Präsenzunterricht auf die themenbezogene Wissensentwicklung bei examiniertem Pflegepersonal?Methode: Es wird zu der Thematik eine Übersichtsarbeit erstellt. Mithilfe einer strukturierten Literaturrecherche werden im Zeitraum von Oktober 2021 bis Jänner 2022 in den Datenbanken Pubmed, Cochrane Library und Cinahl die vorhandenen Forschungsergebnisse zusammengetragen. Weiters werden die Referenzlisten der inkludierten Studien durchleuchtet und zusätzlich wird per Handsuche in Google Scholar recherchiert.Ergebnisse: 228 Treffer konnten mit der Suchstrategie erzielt werden, davon werden fünf quantitative Studien in diese Arbeit inkludiert. Die eingeschlossenen Studien beantworten die Forschungsfrage. Untersucht werden zwei Gruppen, so nimmt die Interventionsgruppe an einer E-Learning Edukationsmaßnahme teil und die Kontrollgruppe am traditionellen Präsenzunterricht. Die vorliegenden Studien bestätigen, dass beide Bildungsformen für die Wissensentwicklung zweckmäßig sind. Die Ergebnisse beweisen eine statistisch signifikante Tendenz zum E-Learning (p

Published
2022

35. Solid state dispersions of platinum in the SnO2 nanomaterials

Author

Radin, Edi, Dražić, Goran, Štefanić, Goran, Pustak, Anđela, Jurkin, Tanja, Marić, Ivan, Raić, Matea, Baran, Nikola, Gotić, Marijan, Marković, Dean, Meštrović, Ernest, Namjesnik, Danijel, and Tomašić, Vesna

Subjects
SnO2, nanoparticles, platinum, solid state dispersion
Abstract

Solid state dispersions of platinum in the SnO2 nanomaterials

Published
2021

36. Magnetic properties of radiolytically synthesized iron oxide nanoparticles

Author

Marić, Ivan, Gotić, Marijan, Greneche, Jean-Marc, Zadro, Krešo, Pustak, Anđela, and Jurkin, Tanja

Subjects
gamma-irradiation, poly(ethylene oxide), magnetite, Mössbauer spectrometry, magnetic measurements
Abstract

γ-irradiation is an attractive and environmentally friendly technique for the synthesis of magnetic iron oxide nanoparticles at room temperature. In this work, deaerated alkaline aqueous suspensions of iron(III) chloride were irradiated in the presence of 2- propanol and a polymer stabilizer to synthesize magnetic iron oxide nanoparticles (MIONs). We studied the effect of different polymer stabilizers (DEAE-dextran, poly(ethylene oxide)) and the effect of γ-irradiation dose on the synthesis of MIONs. The magnetic properties of the samples were studied by SQUID magnetometry and 57Fe Mössbauer spectrometry, and their structural and morphological properties were analyzed by XRD and electron microscopy. The samples showed significantly different phase compositions, morphologies and exhibited superparamagnetic behavior even at very low temperatures, depending on the polymer and absorbed dose. In-field Mössbauer spectrometry showed that the samples exhibited spin-canting phenomenon, presumably at the nanoparticle surface. Acknowledgments: This work has been supported by the Croatian Science Foundation under the project UIP-2017-05-7337 (POLRADNANOP).

Published
2021

37. Mechanochemical synthesis and characterisation of Pt-Fe2O3 nanomaterials

Author

Radin, Edi, Dražić, Goran, Štefanić, Goran, Pustak, Anđela, Jurkin, Tanja, Marić, Ivan, Raić, Matea, Baran, Nikola, Gotić, Marijan, Marković, Dean, Meštrović, Ernest, Namjesnik, Danijel, and Tomašić, Vesna

Subjects
hematite, platinum, nanomaterial, mechanochemical synthesis
Abstract

Mechanochemical synthesis and characterisation of Pt-Fe2O3 nanomaterials

Published
2021

38. A gamma irradiation method for the synthesis of iron oxide/gold nanostructures

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, Jurkin, Tanja, Marković, Dean, Meštrović, Ernest, Namjesnik, Danijel, and Tomašić, Vesna

Subjects
iron oxides, gold, gamma-irradiation, electron microscopy, feroxyhyte
Abstract

Magnetic iron oxide nanoparticles (MNPs) due to their unique magnetic and electrical properties have applications as sensors, contrast agents, in drug delivery, hyperthermia cancer treatments, etc. For these uses, the surface of the particles should be modified with a suitable surface coating that can easily bind the appropriate biomolecules for the selected application. Gold has become one of the favored coatings because it is non-toxic, biocompatible, chemically inert, enables additional functionalization and can protect MNPs from oxidation without significantly reducing magnetic properties. In this work, we have used γ- irradiation as an attractive and ecologically friendly technique for the synthesis of magnetic composite nanoparticles at room temperature. The phase composition, stoichiometry, and morphology of MNPs were controlled by adjusting the γ- irradiation dose. Irradiation with doses 10–36 kGy resulted in the formation of very small 4 nm spherical magnetite NPs, whereas at a higher dose (50 kGy or more) the major phase was magnetic δ- FeOOH (feroxyhyte) in the form of nanodiscs. The Au nanoparticles formed were spherical ; the quantity and size of Au nanoparticles depended on the amount of initially added HAuCl4 aqueous solution. In this way, it was possible to obtain magnetic spherical magnetite/Au and thin nanodisc δ-FeOOH/Au nanostructures (Figure 1) from the same starting suspension by varying just one experimental factor: the absorbed dose.

Published
2021

39. Rheological, Microstructural and Thermal Properties of Magnetic Poly(Ethylene Oxide)/Iron Oxide Nanocomposite Hydrogels Synthesized Using a One-Step Gamma-Irradiation Method

Author

Anđela Pustak, Goran Dražić, Goran Štefanić, Ivan Marić, Jean-Marc Greneche, Tanja Jurkin, Nataša Šijaković Vujičić, Marijan Gotić, Institut des Molécules et Matériaux du Mans (IMMM), and Le Mans Université (UM)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Materials science, magnetite, XRD, General Chemical Engineering, Oxide, Iron oxide, Nanoparticle, 02 engineering and technology, macromolecular substances, 01 natural sciences, Article, lcsh:Chemistry, chemistry.chemical_compound, 57Fe Mössbauer spectrometry, gamma-irradiation, 0103 physical sciences, poly(ethylene oxide), General Materials Science, [PHYS.COND]Physics [physics]/Condensed Matter [cond-mat], ComputingMilieux_MISCELLANEOUS, Magnetite, [PHYS]Physics [physics], Aqueous solution, Nanocomposite, Ethylene oxide, Fe(II) determination, 010308 nuclear & particles physics, thermal properties, technology, industry, and agriculture, magnetic hydrogel, rheological properties, SEM, 021001 nanoscience & nanotechnology, equipment and supplies, 3. Good health, Chemistry, chemistry, Chemical engineering, lcsh:QD1-999, 0210 nano-technology, human activities, Iron oxide nanoparticles
Abstract

Magnetic polymer gels are a new promising class of nanocomposite gels. In this work, magnetic PEO/iron oxide nanocomposite hydrogels were synthesized using the one-step &gamma, irradiation method starting from poly(ethylene oxide) (PEO) and iron(III) precursor alkaline aqueous suspensions followed by simultaneous crosslinking of PEO chains and reduction of Fe(III) precursor. &gamma, irradiation dose and concentrations of Fe3+, 2-propanol and PEO in the initial suspensions were varied and optimized. With 2-propanol and at high doses magnetic gels with embedded magnetite nanoparticles were obtained, as confirmed by XRD, SEM and M&ouml, ssbauer spectrometry. The quantitative determination of &gamma, irradiation generated Fe2+ was performed using the 1,10-phenanthroline method. The maximal Fe2+ molar fraction of 0.55 was achieved at 300 kGy, pH = 12 and initial 5% of Fe3+. The DSC and rheological measurements confirmed the formation of a well-structured network. The thermal and rheological properties of gels depended on the dose, PEO concentration and initial Fe3+ content (amount of nanoparticles synthesized inside gels). More amorphous and stronger gels were formed at higher dose and higher nanoparticle content. The properties of synthesized gels were determined by the presence of magnetic iron oxide nanoparticles, which acted as reinforcing agents and additional crosslinkers of PEO chains thus facilitating the one-step gel formation.

Published
2020

40. Touchscreen Command Interface Based on Wave Menus

Author

Pustak, Andrej and Glavinić, Vlado

Subjects
valoviti izbornik, naredbena interakcija, evaluation, TECHNICAL SCIENCES. Computing, command interaction, TEHNIČKE ZNANOSTI. Računarstvo, vrednovanje, kružni izbornik, wave menu, pie menu
Abstract

Kružni su izbornici oni u kojima su stavke izbornika kružno organizirane oko nekoga središta. U ovome radu predstavljena je implementacija ostvarivog hijerarhijskog kružnog izbornika sa imenom valoviti izbornik. Stavke u valovitom izborniku organizirane su kao kružni vijenac oko nekog središta. Svaki sljedeći vijenac predstavlja jednu razinu u stablu hijerarhije. Ova implementacija valovitog izbornika je hibridna s obzirom na način odabira stavki. Stavke se mogu odabirati povlačenjem i dodirom. Također provedeno je vrednovanje funkcionalnosti valovitih izbornika u usporedbi sa klasičnim linearnim izbornicima i pokazano je kako su korisnici brži korištenjem valovitih izbornika nego linearnim. Vrednovanje upotrebljivosti jest provedeno mjerenjem vremena te SUS upitnikom kojim je upotrebljivost valovitih izbornika ocjenjena odličnom ocjenom. Pie menus are a type of menus where items are organizes in a circular fashion around a center. In this work we have implemented and presented a type of circular hierarchical menu called a Wave Menu. In a wave menu items are organized in rings around a circle in the center of the menu. Every single ring represents one level in the menu hierarchy. This realisation of a wave menu introduced in this work is a hybrid menu when it comes to the method of selecting menu items. The two ways of selecting items are by touch and by swiping which makes this menu also a marking menu. Additionally, we conducted an evaluation of the functionality of wave menus in comparison to traditional linear hierarchical menus. The results show that users are much faster when using wave menus instead of linear menus. Using SUS, we also conducted system usability testing and concluded that the users are happy using the wave menus.

Published
2020

42. γ-Irradiation Synthesis and Characterization of Iron Oxide Nanomaterials

Author

Marić, Ivan, Gotić, Marijan, Štefanić, Goran, Grenèche, Jean-Marc, Pustak, Anđela, Jurkin, Tanja, Bartolome, Fernando, Hadimani, Ravi L., Hu, Feng Xia, Kakay, Attila, Law, Jia Yan, Lupu, Nicoleta, and Stancu, Alexandru

Subjects
gamma-irradiation, amino dextran, dextran sulfate, poly(ethylene oxide), feroxyhyte, magnetite, Mössbauer spectrometry, magnetic measurements
Abstract

γ-irradiation is an attractive and ecologically friendly technique for the synthesis of magnetic nanoparticles (MNPs) at room temperature. It has the advantage of inducing electrons and other reducing species homogeneously throughout the reaction vessel. Unlike radiolytic synthesis of noble metal NPs, the radiolytic synthesis of iron oxide NPs is much less investigated. One of the reasons is a very complex iron oxide chemistry that produces numerous phases. Furthermore, MNPs have a high tendency for agglomeration and due to these reasons, various polymers are used that act as dispersants and stabilizers of MNPs in suspensions as well as growth and surface modifiers. We investigated the effect of 3 different polymers (DEAE- dextran, dextran sulfate and poly(ethylene oxide)), as well as the effect of absorbed dose of γ-irradiation on the synthesis of iron oxide MNPs. The results have shown that dextran polymers, especially DEAE-dextran, completely stabilize the precursor particles forming colloidal precursor solutions before irradiation. Irradiation of such colloidal solutions resulted in the synthesis of stable magnetic suspensions. In the case of DEAEdextran, the phase composition of formed NPs was predominantly magnetite or δ- FeOOH depending on the absorbed dose [1]. In the case of dextran sulfate, a multiphasic system was obtained in all cases [2]. On the other hand, on irradiation in the presence of PEO a completely different kind of product forms - PEO/Fe-oxide magnetic nanocomposite hydrogel. Due to the nature of the PEO polymer, a simultaneous crosslinking of the polymer and reduction of precursor NPs to single-phase iron oxide nanoparticles (magnetite in most cases) occurred. Mössbauer spectroscopy was used to investigate the hyperfine interactions of the materials. Samples generally exhibited superparamagnetic relaxation phenomena, and in some cases, samples were not completely magnetically blocked even at 77 K (Fig. 1). Acknowledgments: This work has been supported by the Croatian Science Foundation under the project UIP-2017-05-7337 (POLRADNANOP). References: [1] I. Marić, G. Drazić, G. Štefanić, K. Zadro, M. Gotić, T. Jurkin, Materials Characterization, Vol. 159, 110038 (2020) [2] I. Marić, G. Štefanić, M. Gotić, T. Jurkin, Journal of Molecular Structure, Vol. 1183, p. 126 (2019)

Published
2020

43. Rheological, Microstructural And Thermal Properties Of Magnetic Poly(Ethylene Oxide)/Iron Oxide Nanocomposite Hydrogels Synthesized Using One-Step Gamma-Irradiation Method

Author

Marić, Ivan, Šijaković Vujičić, Nataša, Pustak, Anđela, Gotić, Marijan, Štefanić, Goran, Dražić, Goran, Grenѐche, Jean-Marc, and Jurkin, Tanja

Subjects
technology, industry, and agriculture, macromolecular substances, magnetic hydrogel, gamma-irradiation, poly(ethylene oxide), magnetite, rheological properties, thermal properties, Fe Mössbauer spectrometry, XRD, SEM, Fe(II) determination
Abstract

Magnetic polymer gels are a new promising class of nanocomposite gels with numerous potential application as effective absorbents of toxic ions in water, in soft actuators such as artificial muscles, in tissue engineering, drug delivery, hyperthermia applications etc. The aim of this work was to explore the ability of γ-irradiation technique for a one-step synthesis of magnetic hydrogels. Magnetic PEO/iron oxide nanocomposite hydrogels were successfully synthesized using one-step γ- irradiation method starting from poly(ethylene oxide) (PEO) and iron(III) suspensions followed by simultaneous crosslinking of PEO chains and reduction of Fe(III) precursor. γ-irradiation dose and concentrations of Fe3+, 2-propanol and PEO in the initial suspensions were varied and optimized. With 2-propanol and at high doses magnetic hydrogels with embedded magnetite nanoparticles were obtained, as confirmed by XRD, SEM and Mössbauer spectroscopy. The quantitative determination of γ-irradiation generated Fe2+ was performed using the 1, 10- phenanthroline method. DSC and rheological measurements confirmed the formation of well- structured network. The thermal and rheological properties of the gels depended on the dose, PEO concentration and amount of nanoparticles synthesized inside gels (initial Fe3+ content). Both enthalpies and temperatures of melting and crystallization of gels decrease with the dose and the amount of formed magnetic NPs. More amorphous and stronger gels were formed at higher dose and higher nanoparticle content. The properties of the synthesized gels were determined by the presence of magnetic iron oxide nanoparticles, which acted as reinforcing agents and additional crosslinkers of the PEO chains thus facilitating one-step gel formation.

Published
2020

44. The effect of polymers on the radiolytic synthesis of magnetic materials

Author

Marić, Ivan, Pustak, Anđela, Štefanić, Goran, Gotić, Marijan, Jurkin, Tanja, Rončević, Sanda, and Barišić, Dajana

Subjects
technology, industry, and agriculture, gamma-irradiation, amino dextran, dextran sulfate, poly(ethylene oxide), feroxyhyte, magnetite, magnetic hydrogel
Abstract

Magnetic iron oxide nanoparticles (NPs) have applications as sensor, as contrast agents for MR imaging, in drug delivery and for hyperthermia cancer treatments. γ-irradiation is an attractive and ecologically friendly technique for the synthesis of magnetic nanoparticles at room temperature. It has an advantage of inducing electrons and other reducing species homogeneously through the sample. Unlike radiolytic synthesis of noble metal NPs, the radiolytic synthesis of iron oxide NPs is much less investigated. One of the reasons is a very complex iron oxide chemistry that produces numerous phases. Furthermore, magnetic NPs have a high tendency for agglomeration and due to these reasons various polymers are used that act as dispersants and stabilizers of magnetic NPs in suspensions as well as growth and surface modifiers. In this work we investigated the effect of 3 different polymers (DEAE-dextran, dextran sulfate and PEO), as well as the effect of absorbed dose of γ-irradiation on the synthesis of magnetic iron oxide nanoparticles. It was shown that the polymers completely stabilize the precursor particles before irradiation. The type of polymer, as well as the dose applied, had a strong influence on phase composition, morphology, and size of the formed nanoparticles, and in the case of PEO polymer, a completely different kind of product forms (hydrogel/Fe oxide nanocomposite material). In the case of DEAE dextran polymer, the phase composition was dominated by either magnetite or δ-FeOOH depending on the dose absorbed. In the case of dextran sulfate, a multiphasic system was obtained in all cases, with up to 4 different phases for each product obtained. Due to the nature of the PEO polymer, a simultaneous crosslinking of the polymer and the formation of single-phase iron oxide (magnetite in most cases) nanoparticles was observed.

Published
2020

45. A controllable method for the synthesis of magnetic iron oxide and iron oxide/Au nanostructures using γ-irradiation

Author

Marić, Ivan, Pustak, Anđela, Gotić, Marijan, Dražić, Goran, Štefanić, Goran, Zadro, Krešo, and Jurkin, Tanja

Subjects
gamma-irradiation, amino dextran, dextran sulfate, poly(ethylene oxide), feroxyhyte, magnetite
Abstract

Magnetic iron oxide nanoparticles (MNPs) due to their unique magnetic and electrical properties have applications as sensor, contrast agents, in drug delivery and for hyperthermia cancer treatments. In this work we have used γ- irradiation as an attractive and ecologically friendly technique for the synthesis of magnetic nanoparticles at room temperature. γ- irradiation has an advantage of inducing electrons and other reducing species homogeneously through the sample. We have systematically studied the influence of γ- irradiation dose on the synthesis of iron oxide nanoparticles. The iron(III) chloride alkaline aqueous solutions were purged with nitrogen and g-irradiated with addition of 2-propanol. DEAE- dextran was used as growth and stabilizing agent of MNPs in suspensions. The phase composition, stoichiometry and morphology of MNPs were controlled by adjusting γ-irradiation dose and dose rate. Irradiation with doses 10 - 36 kGy resulted in the formation of very small 4 nm spherical substoichiometric magnetite NPs, whereas at higher dose (50 kGy or more) the major phase was magnetic δ-FeOOH (feroxyhyte) in the form of nanodiscs. The magnetic measurements showed superparamagnetic behaviour of magnetite NPs and exceptional intrinsic room-temperature magnetic properties of δ-FeOOH nanostructures with the Curie temperature above 300 K. The reduction of ferric (Fe3+) to ferrous (Fe2+) ions was quantitatively determined using the 1, 10-phenanthroline spectrophotometric method. The reduction proceeds fast in the beginning stages of irradiation (up to 30 kGy, ~65% Fe3+ reduced), slows down after this initial period, and reaches 100% reduction at ~75 kGy. However, ferrous ions (Fe2+) that formed upon g- irradiation of iron(III) precursor in the form of intermediate Fe(OH)2 were highly susceptible to oxidation and in the contact with air oxidized to Green Rust (formula) and further upon isolation to δ-FeOOH nanodiscs. Furthermore, the possibility to use γ- irradiation to form iron oxide/Au nanostructures was explored.

Published
2020

46. γ-irradiation generated ferrous ions affect the formation of magnetite and feroxyhyte

Author

Ivan Marić, Tanja Jurkin, Goran Štefanić, Marijan Gotić, and Anđela Pustak

Subjects
inorganic chemicals, Radiation, Aqueous solution, 010308 nuclear & particles physics, Chemistry, Nanoparticle, engineering.material, Mole fraction, 01 natural sciences, Feroxyhyte, 030218 nuclear medicine & medical imaging, Ferrous, Inorganic Chemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, magnetite, feroxyhyte, gamma-irradiation, DEAE-dextran, 1, 10-phenantroline, 0103 physical sciences, engineering, Stoichiometry, Superparamagnetism, Magnetite, Nuclear chemistry
Abstract

1,10-phenanthroline spectrophotometric method was used in order to systematically measure the quantity of Fe2+ ions that were generated upon γ-irradiation of alkaline Fe(III) aqueous solutions in the presence of diethylaminoethyl (DEAE)-dextran. γ-irradiation was performed in a range of doses from 5 to 130 kGy and the dose rate was ~26 kGy h-1. The results showed that γ-irradiation reduces Fe3+ to Fe2+; the reduction was initially very fast, but quickly slowed down and then reached a plateau of 100% reduction. The quantity of Fe2+ in γ-irradiated suspensions and isolated solid products roughly overlap up to 45% of Fe2+, because in this range the inverse spinel structure of substoichiometric magnetite nanoparticles was able to capture 30.1% of Fe2+. The stoichiometries of the formed magnetite nanoparticles were very similar, which indicated that the absorbed dose did not have a significant influence on the magnetite stoichiometry, even though Fe2+ molar fraction increased from 22 to 45% as a function of absorbed dose. When γ-irradiation generated 69% or more of Fe2+ the powder samples consisted exclusively of Fe(III), i.e. of δ-FeOOH nanodiscs and poorly crystallized α-FeOOH nanoparticles about 4 nm in size. The volume-averaged domain sizes and crystal aspect ratio of the δ-FeOOH nanodiscs increased from 16 nm to 25 nm and from 1.6 to 2.1 with the increase of absorbed dose, respectively. The use of DEAE-dextran in the γ-irradiation synthesis enabled the generation of up to 100% of Fe2+ and synthesis of extremely stable aqueous suspensions of superparamagnetic magnetite nanoparticles as well as the synthesis of δ-FeOOH nanodiscs with high aspect ratios.

Published
2020

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