Your search keyword '"Bele, Marjan"' showing total 8 results

1. The effect of microscopic phenomena on the performance of iron-based oxygen carriers of chemical looping hydrogen production

Author

Blaschke, Fabio, Bele, Marjan, KoppelhuberBitschnau, Brigitte, and Hacker, Viktor

Subjects

vodik, Process Chemistry and Technology, materiali, udc:544.3/.4, kataliza, kataliza, vodik, kisik, materiali, kisik, Catalysis, General Environmental Science

Abstract

Nasl. z nasl. zaslona. Opis vira z dne 6. 3. 2023. Bibliografija: str. 16-17. Abstract.

Published

2023

2. Characterization of fresh PM deposits on calcareous stone surfaces

Author

Ogrizek, Monika, Gregorič, Asta, Ivančič, Matic, Contini, Daniele, Skube, Urša, Vidović, Kristijan, Bele, Marjan, Šala, Martin, Klanjšek Gunde, Marta, Rigler, Martin, Menart, Eva, and Kroflič, Ana

Subjects

aerosoli, biomasa, biokemija, udc:577, onesnaževanje, trdni delci

Published

2023

3. Utilizing ablation volume for calibration in LA-ICP-MS mapping to address variations in ablation rates within and between matrices.

Author

Mervič K, van Elteren JT, Bele M, and Šala M

Abstract

Quantification in 2D LA-ICP-MS mapping generally requires matrix-matched standards to minimize issues related to elemental fractionation. In addition, internal standardization is commonly applied to correct for instrumental drift and fluctuation, whereas also differences in ablated mass can be rectified for samples that cannot be sectioned and subjected to total ablation. However, it is crucial that the internal standard element is homogeneously distributed in the sample and that the laser light absorptivity is uniform over the surface. As in practice these requirements are often not met, this work will focus on correction of ablation rate differences within/between samples and standards by normalizing the element maps using the associated ablation volume per pixel as measured by optical profilometry. Due to the volume correction approach the element concentrations are no longer defined as mass per mass concentrations (in μg g -1 ) but by mass per volume concentrations (in μg cm -3 ), which can be interconverted in case matrix densities are known. The findings show that ablation volume-aided calibration yields more accurate element concentrations in 2D LA-ICP-MS maps for a decorative glass with highly varying elemental concentrations (murrina). This research presents a warning that if there are variations in ablation rates between samples and standards within and across matrices, even when their sensitivities are the same, generic LA-ICP-MS calibration protocols may not accurately depict the actual element concentrations., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

4. Characterization of fresh PM deposits on calcareous stone surfaces: Seasonality, source apportionment and soiling potential.

Author

Ogrizek M, Gregorič A, Ivančič M, Contini D, Skube U, Vidović K, Bele M, Šala M, Gunde MK, Rigler M, Menart E, and Kroflič A

Subjects

Environmental Monitoring, Aerosols analysis, Soot analysis, Dust analysis, Seasons, Carbon analysis, Coal, Particulate Matter analysis, Air Pollutants analysis

Abstract

Particulate matter (PM) pollution is one of the major threats to cultural heritage outdoors. It has been recently implied that organic aerosols will prevail over inorganic carbon particulates in the future, changing the main mechanisms of damage caused by poor air quality to calcareous heritage in particular. We studied fresh particulate deposits on marble and limestone surfaces exposed to urban air in sheltered and unsheltered configurations. Due to different air pollution sources in different seasons, the amount and composition of surface deposits varied throughout the year. The main and most constant contributor to PM 2.5 (particles smaller than 2.5 μm) were primary traffic emissions (30 %), followed by secondary formation of acidic inorganic aerosols, such as sulphate in summer and nitrate in winter (33 % altogether), and seasonal biomass-burning emissions (14 %). Although biomass burning is the major source of primary organic aerosols including the light-absorbing fraction that prevailed over black carbon (BC) in colder months (up to 60 % carbonaceous aerosol mass), we show that surface darkening causing the soiling effect is still governed by the minor BC fraction of atmospheric aerosols, which remained below 20 % of the carbonaceous aerosol mass throughout the year. This, however, can change in remote environments affected by biomass-burning emissions, such as winter resorts, or by rigorous BC mitigation measures in the future. In the short run, sheltered positions were less affected by different removal processes, but we show that surface deposits are not simply additive when considering longer periods of time. This must be taken into account when extrapolating surface accumulation to longer time scales., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Asta Gregorič, Matic Ivančič and Martin Rigler are employed by the company Aerosol d.o.o., which develops and manufactures aerosol instrumentation, including the CASS instrument used in the campaigns., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2023

5. SEM method for direct visual tracking of nanoscale morphological changes of platinum based electrocatalysts on fixed locations upon electrochemical or thermal treatments.

Author

Zorko M, Jozinović B, Bele M, Hodnik N, and Gaberšček M

Abstract

A general method for tracking morphological surface changes on a nanometer scale with scanning electron microscopy (SEM) is introduced. We exemplify the usefulness of the method by showing consecutive SEM images of an identical location before and after the electrochemical and thermal treatments of platinum-based nanoparticles deposited on a high surface area carbon. Observations reveal an insight into platinum based catalyst degradation occurring during potential cycling treatment. The presence of chloride clearly increases the rate of degradation. At these conditions the dominant degradation mechanism seems to be the platinum dissolution with some subsequent redeposition on the top of the catalyst film. By contrast, at the temperature of 60°C, under potentiostatic conditions some carbon corrosion and particle aggregation was observed. Temperature treatment simulating the annealing step of the synthesis reveals sintering of small platinum based composite aggregates into uniform spherical particles. The method provides a direct proof of induced surface phenomena occurring on a chosen location without the usual statistical uncertainty in usual, random SEM observations across relatively large surface areas., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

6. Zinc bioaccumulation in a terrestrial invertebrate fed a diet treated with particulate ZnO or ZnCl2 solution.

Author

Pipan-Tkalec Z, Drobne D, Jemec A, Romih T, Zidar P, and Bele M

Subjects

Animals, Chlorides toxicity, Dose-Response Relationship, Drug, Feeding Behavior drug effects, Isopoda drug effects, Particulate Matter toxicity, Zinc toxicity, Zinc Compounds toxicity, Zinc Oxide toxicity, Chlorides metabolism, Isopoda metabolism, Particulate Matter metabolism, Zinc metabolism, Zinc Compounds metabolism, Zinc Oxide metabolism

Abstract

A number of reports on potential toxicity of nanoparticles are available, but there is still a lack of knowledge concerning bioaccumulation. The aim of this work was to investigate how different sources of zinc, such as uncoated and unmodified ZnO nanoparticles, ZnCl(2) in solution, and macropowder ZnO influence the bioaccumulation of this metal in the terrestrial isopod Porcellio scaber. After exposure to different sources of Zn in the diet, the amount of assimilated Zn in whole body, the efficiency of zinc assimilation, and bioaccumulation factors (BAFs) were assessed. The bioaccumulation potential of Zn was found to be the same regardless of Zn source. The amount of assimilated Zn and BAF were dose-dependent, and Zn assimilation efficiency was independent of exposure concentrations. The Zn assimilation capacity was found to be up to 16% of ingested Zn. It is known that as much as approximately 20% of Zn can be accreted from ZnO particles by dissolution. We conclude that bioaccumulation of Zn in isopods exposed to particulate ZnO depends most probably on Zn dissolution from ZnO particles and not on bioaccumulation of particulate ZnO.

Published

2010

7. Carbon black nanoparticles film electrode prepared by using substrate-induced deposition approach.

Author

Svegl IG, Bele M, and Ogorevc B

Subjects

Electrochemistry, Electron Transport, Glass, Microscopy, Electron, Scanning, Sensitivity and Specificity, Surface Properties, Chemistry Techniques, Analytical instrumentation, Electrodes, Nanoparticles chemistry, Soot chemistry

Abstract

A new type of carbon film electrode, composed of a thin layer of tightly packed carbon black (CB) nanoparticles deposited onto a gelatin-covered indium tin oxide/glass support using the surface-induced deposition (SID) approach, is presented. Some parameters of the novel SID method were optimized and the surface image and functionalization of the investigated carbon black film electrode (CBFE) was inspected by employing scanning electron microscopy and infrared spectroscopy. A cyclic voltammetry (CV) study was conducted in which the electron-transfer kinetics and CBFE interfacial characteristics were evaluated employing several selected reference redox systems, such as [Ru(NH(3))(6)](3+/2+), [Fe(CN)(6)](3-/4-) and Fe(3+/2+) in aqueous, and ferrocene/ferrocenium in acetonitrile media. CV recordings were also performed in order to compare the electrochemical behavior of the CBFE with that of some well-known and established bare carbon-based electrodes. In order to confirm the validity of the CB film preparation method, the electroanalytical performance of the proposed CBFE was examined by carrying out linear sweep voltammetry of ascorbic acid (AA), anodic stripping square-wave voltammetry of Cu(II) in acidic medium, and amperometric measurements of hydrogen peroxide under flow injection conditions. The sensing characteristics of the novel carbon film electrode, demonstrated in this preliminary study, comprise: (i) a wide working potential window ranging from +1.0 to -1.3 V (depending on the solution pH), (ii) a wide applicable pH range (at least from 2 to 12), (iii) low voltammetric background (<5 microA cm(-2)), (iv) a satisfactory linear voltammetric and amperometric response (r(2)>0.99) to various analytes, (v) good reproducibility (for example, r.s.d. of 2% in amperometric detection of H(2)O(2) and r.s.d. of 8.5% for electrode-to-electrode CV runs), and (vi) stable and fast current response (at least 100 CV runs with negligible change in CV response). The main advantages of the proposed CBFE originate from the unique CB film formation procedure that enables fast, simple, inexpensive and non-toxic CBFE preparation, which can find application in advanced electrochemical devices and is suitable for mass production.

Published

2008

8. Zinc-decorated silica-coated magnetic nanoparticles for protein binding and controlled release.

Author

Bele M, Hribar G, Campelj S, Makovec D, Gaberc-Porekar V, Zorko M, Gaberscek M, Jamnik J, and Venturini P

Subjects

Electrophoresis, Polyacrylamide Gel, Protein Binding, Magnetics, Nanoparticles, Silicon Dioxide chemistry, Zinc chemistry

Abstract

The aim of this study was to be able to reversibly bind histidine-rich proteins to the surface of maghemite magnetic nanoparticles via coordinative bonding using Zn ions as the anchoring points. We showed that in order to adsorb Zn ions on the maghemite, the surface of the latter needs to be modified. As silica is known to strongly adsorb zinc ions, we chose to modify the maghemite nanoparticles with a nanometre-thick silica layer. This layer appeared to be thin enough for the maghemite nanoparticles to preserve their superparamagnetic nature. As a model the histidine-rich protein bovine serum albumin (BSA) was used. The release of the BSA bound to Zn-decorated silica-coated maghemite nanoparticles was analysed using sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE). We demonstrated that the bonding of the BSA to such modified magnetic nanoparticles is highly reversible and can be controlled by an appropriate change of the external conditions, such as a pH decrease or the presence/supply of other chelating compounds.

Published

2008