Jan Czech
University of Hasselt
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Featured researches published by Jan Czech.
Polymer | 2002
Els Kesters; Mm de Kok; Robert Carleer; Jan Czech; Peter Adriaensens; Jan Gelan; Dirk Vanderzande
Abstract The thermal elimination of the n -octyl-sulphonyl group from poly[1,4 phenylene (1- n -octyl-sulphonyl)-1,2-ethylene] and the phenyl-sulphonyl group from poly[1,4 phenylene (1-phenyl-sulphonyl)-1,2-ethylene] is evaluated by different analytical techniques: thermal gravimetric analysis, direct insert probe mass spectrometry, in situ ultraviolet–visible spectroscopy and in situ Fourier transform infra red spectroscopy. This thermal treatment yields PPV with improved optical properties compared to the conventional PPV concerning UV-absorption and photoluminescence efficiencies. The results obtained are consistent with the formation of a PPV with a more or less restricted conjugation length compared to the PPV material obtained from the conversion of a sulphinyl precursor polymer.
Journal of Chromatography A | 2008
Palina Tsytsik; Jan Czech; Robert Carleer
Thermal extraction-GC-MS (TE-GC-MS) is a relatively new analytical technique which demonstrates a large potential for the analysis of various solid matrices. This technique provides a rapid quantitative and simultaneous determination of a wide range of volatile and semi-volatile organic compounds without laborious sample preparation or any chemical pre-treatment. Its amenability to automation and coupling with on-line detection methods makes TE-GC-MS a promising technique, not only in laboratory analysis, but also for in situ emission monitoring. However, the number of studies dedicated to the application of TE-GC-MS to fly ashes, which are an unavoidable by-product of any thermal industrial process and also the sink of many environmental pollutants, is limited. The ability of TE-GC-MS to analyse a wide range of trace semi-volatile dioxin surrogate compounds in fly ash samples is investigated as an alternative to the well-established solvent extraction-GC-MS analysis (SE-GC-MS). Reproducibility, the effect of TE temperature, time, flow, and the influence of the analysed matrix are studied. Dedicated experiments demonstrate that the conversion (dechlorination and in situ formation) of target analytes and the decomposition of the fly ash matrix can take place at elevated TE temperatures and during prolonged TE times. Moreover, these effects are matrix-specific and vary from sample to sample. After optimizing the TE parameters, two fly ash samples of different origins are analysed and more than 50 individual analytes representing different classes of aromatic compounds are quantified and compared with those available from the SE-GC-MS analysis.
Chemosphere | 2008
Palina Tsytsik; Jan Czech; Robert Carleer; Guy Reggers; Alfons Buekens
Thermogravimetric analysis (TGA) has been combined with evolved gas analysis (EGA) with the purpose of simulating the thermal behaviour of filter dust samples under inert (desorption) and de novo test oxidising conditions. Emphasis is on studying de novo formation of dioxins, surrogates and precursors arising from filter dust derived from thermal processes, such as municipal solid waste incineration and metallurgy. A new method is tested for sampling and analysing dioxin surrogates and precursors in the TGA effluent, which are collected on sampling tubes; the adsorbed compounds are eventually desorbed and quantified by TD-GC-MS. The major sources of error and losses are considered, including potential sorbent artefacts, possible breakthrough of volatiles through sampling tubes, or eventual losses of semi-volatiles due to their incomplete desorption or re-condensation inside the TG Analyser. The method is optimised and validated for di- to hexa-chlorinated benzenes in a range of 10-1000 ppb with average recovery exceeding 85%. The results are compared with data obtained in similar studies, performed by other research groups. As a result, the method provides the means for simulating de novo synthesis of dioxins in fly-ash and facilitates reliable and easy estimation of de novo activity, comparable with results of other studies, in combination with wide flexibility of testing conditions.
Microbial Ecology | 2018
Mathias Lenaers; Wouter Reyns; Jan Czech; Robert Carleer; Indranil Basak; Wim Deferme; Patrycja Krupinska; Talha Yildiz; Sherilyn Saro; Tony Remans; Jaco Vangronsveld; Frederik De Laender; Francois Rineau
Comprehending the decomposition process is crucial for our understanding of the mechanisms of carbon (C) sequestration in soils. The decomposition of plant biomass has been extensively studied. It revealed that extrinsic biomass properties that restrict its access to decomposers influence decomposition more than intrinsic ones that are only related to its chemical structure. Fungal biomass has been much less investigated, even though it contributes to a large extent to soil organic matter, and is characterized by specific biochemical properties. In this study, we investigated the extent to which decomposition of heathland fungal biomass was affected by its hydrophobicity (extrinsic property) and melanin content (intrinsic property). We hypothesized that, as for plant biomass, hydrophobicity would have a greater impact on decomposition than melanin content. Mineralization was determined as the mineralization of soil organic carbon (SOC) into CO2 by headspace GC/MS after inoculation by a heathland soil microbial community. Results show that decomposition was not affected by hydrophobicity, but was negatively correlated with melanin content. We argue that it may indicate that either melanin content is both an intrinsic and extrinsic property, or that some soil decomposers evolved the ability to use surfactants to access to hydrophobic biomass. In the latter case, biomass hydrophobicity should not be considered as a crucial extrinsic factor. We also explored the ecology of decomposition, melanin content, and hydrophobicity, among heathland soil fungal guilds. Ascomycete black yeasts had the highest melanin content, and hyaline Basidiomycete yeasts the lowest. Hydrophobicity was an all-or-nothing trait, with most isolates being hydrophobic.
Biomass & Bioenergy | 2013
Koen Smets; A. Roukaerts; Jan Czech; Guy Reggers; Sonja Schreurs; Robert Carleer; Jan Yperman
Fuel | 2016
Maya Stefanova; L. Gonsalvesh; Stefan Marinov; Jan Czech; Robert Carleer; Jan Yperman
Environmental Engineering Science | 2010
Palina Tsytsik; Jan Czech; Robert Carleer; Alfons Buekens
Beverages | 2017
Harold Crespo Sariol; Thayset Mariño Peacok; Jan Yperman; Angel Sánchez Roca; Hipólito Carvajal Fals; Ángel Brito Sauvanell; Robert Carleer; Jan Czech; José Ledea Vargas; José Navarro Campa
Environmental Engineering Science | 2010
Palina Tsytsik; Jan Czech; Guy Reggers; Robert Carleer; Alfons Buekens
International Journal of Coal Geology | 2017
Angelina Kosateva; Maya Stefanova; Stefan Marinov; Jan Czech; Robert Carleer; Jan Yperman