2020
DOI: 10.1016/j.cej.2020.124143
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Degradation kinetics of isoproturon and its subsequent products in contact with TiO2 functionalized silica nanofibers

Abstract: A challenge for the photodegradation of (organic) micro-pollutants in waste water treatment is the mechanistic and kinetic understanding beyond the degradation of the initial (parent) harmful product, e.g. the phenylurea herbicide isoproturon (IPU). By combining liquid chromatography mass spectrometry and kinetic Monte Carlo modeling, we demonstrate that upon optimizing the dip-coating conditions (0.34 mol L -1 TiO2 solution at a coating speed of 160 mm min -1 ) for the functionalization of a superhydrophilic … Show more

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Cited by 20 publications
(11 citation statements)
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“…16 For systems with elemental species, analytical or pseudoanalytical solutions (e.g., based on the quasi-steady-state approximation; QSSA) are often readily available. 17,18 However, to model the time evolution of processes involving distributed species, only in some cases, an exact analytical solution may exist. 19−23 In most cases, the likely occurrence of several competing phenomena complicates the feasibility of an analytical approach.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…16 For systems with elemental species, analytical or pseudoanalytical solutions (e.g., based on the quasi-steady-state approximation; QSSA) are often readily available. 17,18 However, to model the time evolution of processes involving distributed species, only in some cases, an exact analytical solution may exist. 19−23 In most cases, the likely occurrence of several competing phenomena complicates the feasibility of an analytical approach.…”
Section: Introductionmentioning
confidence: 99%
“…For systems with elemental species, analytical or pseudoanalytical solutions (e.g., based on the quasi-steady-state approximation; QSSA) are often readily available. , However, to model the time evolution of processes involving distributed species, only in some cases, an exact analytical solution may exist. In most cases, the likely occurrence of several competing phenomena complicates the feasibility of an analytical approach. This is undoubtedly the situation in polymer reaction engineering (PRE) with polymerization reactions in parallel and series and the additional complexity introduced by (chain length-dependent) diffusional limitations on the microscale (scale to define concentrations) and mixing/temperature heterogeneities at the macroscale (scale of the reactor), prohibiting the availability of an exact analytical solution. , For a general process, one thus needs to resort to numerical frameworks based on deterministic or stochastic problem formulations but maintain fundamental principles such as the consideration of Arrhenius laws and the mass law of action. , …”
Section: Introductionmentioning
confidence: 99%
“…[ 139–141 ] The surface modification can be tailored mainly through the concentration of the solution and the immersion time. [ 142 ] This method allows the functionalization of nano‐/microfibers with distinct nanostructures as Co 3 O 4, [ 143 ] AgNWs, [ 144 ] TiO 2 , [ 145,146 ] SiO 2 , [ 147 ] Al 2 O 3 , [ 148 ] ZnO, [ 132,149 ] AgPO 4, [ 150 ] AgNPs, [ 151,152 ] graphene oxide, [ 153 ] reduced graphene oxide (rGO), [ 154 ] CNW(cellulose nanowhiskers):Ag, [ 155 ] CNW:Au, [ 156 ] sugarcane bagasse fly ash (SBFA), [ 157 ] MWCNTs, [ 158 ] and AgNPs/rGO. [ 159 ]…”
Section: Post‐modification Methods For Micro/nanofibermentioning
confidence: 99%
“…In a first instance, the focus is on [Tz] 0 equal to 3.6 mmol L −1 . These experimental data can be described using first-order kinetics assuming the quasi-steady-state approximation (QSSA) 94 for the calculation of the diradical intermediate (A*) and the nitrile imine (B) concentration, as elaborated in Section S3b.2 of the Supporting Information. It follows that for [Tz] 0 equal to 3.6 mmol L −1 , the NITEC kinetics are independent of the maleimide functionality (mono vs tri), as the pyrazoline yield profiles in Figure 4b for the orange (mono) and blue (tri) closed symbols (experimental data) as well as the corresponding simulated full llines match.…”
Section: Kinetic Monte Carlo Modeling Detailsmentioning
confidence: 99%