Publications
Publications
Velimirovic M., Tirez K., Voorspoels S., Vanhaecke F. (2020) Recent developments in mass spectrometry for the characterization of micro- and nanoscale plastic debris in the environment, Analytical and Bioanalytical Chemistry, Trends paper, just published.
Velimirovic M., Wagner S., Koeber R., Hofmann T., and von der Kammer F. (2020) Intra-laboratory assessment of a method for the detection of TiO2 nanoparticles present in sunscreens based on multi-detector asymmetrical flow field-flow fractionation. NanoImpact 100233
Velimirovic M., Wagner S., Abdolahpur Monikh F., Uusimäki, T., Kaegi, R., Hofmann, T., and von der Kammer F. (2020) Accurate quantification of TiO2 nanoparticles in commercial sunscreens using standard materials and orthogonal particle sizing methods for verification. Talanta 120921.
Bolea-Fernandez E., Rua-Ibarz A., Velimirovic M., Tirez K., and Vanhaecke F. (2020) Detection of microplastics using inductively coupled plasma-mass spectrometry (ICP-MS) operated in single-event mode. Journal of Analytical Atomic Spectrometry 35: 455-460.
Velimirovic M., Bianco, C., Ferrantello, N., Tosco, T., Casasso, A., Sethi, R., Schmid, D., Wagner, S., Miyajima, K., Klaas, N., Meckenstock, R.U., von der Kammer, F., Hofmann T. (2020) A Large-Scale 3D Study on Transport of Humic Acid-Coated Goethite Nanoparticles for Aquifer Remediation. Water 12(4): 1207. Feature Paper in a Special Issue "Groundwater and Soil Remediation"
Honetschlagerova L., Janouskovcova P., Velimirovic M., Kubal M., and L. Bastiaens (2018) Using silica coated nanoscale zerovalent particles for the reduction of chlorinated ethylenes. Silicon 10(6): 2593-2601.
Velimirovic M., Auffan M., Carniato L., Micić Batka V., Schmid D., Wagner S., Borschneck D., Proux O., von der Kammer F., and T. Hofmann (2018) Effect of field site hydrogeochemical conditions on the corrosion of milled zerovalent iron particles and their dechlorination efficiency. Science of the Total Environment 618: 1619-1627.
Velimirovic M., Larsson P.-O., Simons Q., and L. Bastiaens (2017) Effect of boron on reactivity and apparent corrosion rate of microscale zerovalent irons. Journal of Environmental Chemical Engineering 5(2): 1892-1898.
Micić V., Schmid D., Bossa N., Gondikas A., Velimirovic M., von der Kammer V., Wiesner M.R., and T. Hofmann (2017) Impact of sodium humate coating on collector surfaces on deposition of polymer-coated nano-iron particles. Environmental Science & Technology 51(16): 9202–9209.
Velimirovic M., Schmid D., Wagner S., Micić V., von der Kammer F., and T. Hofmann (2016) Agar agar-stabilized milled zerovalent iron particles for in situ groundwater remediation. Science of the Total Environment 563–564: 713-723.
Luna M., Gastone F., Tosco T., Sethi R., Velimirovic M., Gemoets J., Muyshondt R., Sapion H., Klaas N., and L. Bastiaens (2015) Pressure-controlled injection of guar gum stabilized microscale zerovalent iron for groundwater remediation. Journal of Contaminant Hydrology 181: 46-58.
Velimirovic M., Simons Q., and L. Bastiaens (2015) Use of CAH-degrading bacteria as test-organisms for evaluating the impact of fine zerovalent iron particles on the anaerobic subsurface environment. Chemosphere 134: 338-345.
Flores Orozco A., Velimirovic M., Tosco T., Kemna A., Sapion H., Klaas N., Sethi R., and L. Bastiaens (2015) Monitoring the Injection of Microscale Zerovalent Iron Particles for Groundwater Remediation by Means of Complex Electrical Conductivity Imaging. Environmental Science & Technology 49: 5593-5600.
Best Paper Award 2016 of the Faculty of Mathematics and Geoinformation, TU Wien, Austria
Velimirovic M., Simons Q., and L. Bastiaens (2014) Guar gum coupled microscale ZVI for in situ treatment of CAHs: Continuous-flow column study. Journal of Hazardous Materials 265: 20-29.
Velimirovic M., Carniato L., Simons Q., Schoups G., Seuntjens P., and L. Bastiaens (2014) Corrosion rate estimations of microscale zerovalent iron particles via direct hydrogen production measurements. Journal of Hazardous Materials 270: 18-26.
Velimirovic M., Tosco T., Uyttebroek M., Luna M., Gastone F., De Boer C., Klaas N., Sapion H., Eisenmann H., Larsson P.-O., Braun J., Sethi R., and L. Bastiaens (2014) Field assessment of guar gum stabilized microscale zerovalent iron particles for in-situ remediation of 1,1,1-trichloroethane. Journal of Contaminant Hydrology 164: 88-99.
Velimirovic M., Larsson P.-O., Simons Q., and L. Bastiaens (2013) Impact of carbon, oxygen and sulfur content of microscale zerovalent iron particles on its reactivity towards chlorinated aliphatic hydrocarbons. Chemosphere 93: 2040-2045.
Velimirovic M., Larsson P.-O., Simons Q., and L. Bastiaens (2013) Reactivity screening of microscale zerovalent irons and iron sulfides towards different CAHs under standardized experimental conditions. Journal of Hazardous Materials 252-253: 204-212.
Velimirovic M., Chen H., Simons Q., and L. Bastiaens (2012) Reactivity recovery of guar gum coupled mZVI by means of enzymatic breakdown and rinsing. Journal of Contaminant Hydrology 142-143: 1–10.
Velimirovic M., Prica M., Dalmacija B., Rončević S., Dalmacija M., Bečelić M., and J. Tričković, (2011) Characterisation, availability, and risk assessment of the metals in sediment after aging. Water, Air and Soil Pollution: an international journal of environmental pollution 214: 219-229.
Velimirovic, M., Laycock, A. (2017) SOPs, applicability range and method performance description for FFF coupled to counting techniques (spICPMS, ESI-CPS). NanoDefine Technical Report (D5.5), NanoDefine Consortium, Wageningen.
Larsson P.-O., Berg S., Vidarsson H., Bastiaens L., Velimirovic, M. New powder, powder composition, method for use thereof and use of the powder and powder composition WO2014044692 A1, US20150232967 A1, CA2885252A1, CN104968611A, EP2897911A1, 2014 - invention relates to a new material and the use of the new material for remediation of polluted soil, water or groundwater as well as a method for remediation of polluted soil, water or groundwater.