Your search keyword '"Besselink, R"' showing total 22 results

1. A high-throughput approach for assessing antiscaling performance during mineral precipitation from seawater and hard water

Author

Poulain, A., Besselink, R., Fernandez-Martinez, A., Kellermeier, M., and Van Driessche, A. E. S.

Published

2024

2. Persistence of impaired health status of Q fever patients 4 years after the first Dutch outbreak

Author

LIMONARD, G. J. M., PETERS, J. B., BESSELINK, R., GROOT, C. A. R., DEKHUIJZEN, P. N. R., VERCOULEN, J. H., and NABUURS-FRANSSEN, M. H.

Published

2016

3. One-year follow-up of patients of the ongoing Dutch Q fever outbreak: clinical, serological and echocardiographic findings

Author

Limonard, G. J. M., Nabuurs-Franssen, M. H., Weers-Pothoff, G., Wijkmans, C., Besselink, R., Horrevorts, A. M., Schneeberger, P. M., and Groot, C. A. R.

Published

2010

4. Q-koortsuitbraak in Nederland, een terugblik

Author

Besselink, R. A. M.

Published

2010

5. Detailed analysis of health status of Q fever patients 1 year after the first Dutch outbreak: a case–control study

Author

Limonard, G.J.M., Peters, J.B., Nabuurs-Franssen, M.H., Weers-Pothoff, G., Besselink, R., Groot, C.A.R., Dekhuijzen, P.N.R., and Vercoulen, J.H.

Published

2010

6. Q fever outbreak in southeastern Netherlands: O251

Author

Nabuurs-Franssen, M. H., Weers-Pothoff, G, Groot, C. A.R., Besselink, R., Steenberger, P., Morrow, G., Dijkstra, F., and Horrevorts, A.

Published

2008

7. Not just fractal surfaces, but surface fractal aggregates: Derivation of the expression for the structure factor and its applications.

Author

Besselink, R., Stawski, T. M., Van Driessche, A. E. S., and Benning, L. G.

Subjects

*DIFFUSION, *SCATTERING (Physics), *CRYSTAL structure, *GYPSUM, *FRACTALS

Abstract

Densely packed surface fractal aggregates form in systems with high local volume fractions of particles with very short diffusion lengths, which effectively means that particles have little space to move. However, there are no prior mathematical models, which would describe scattering from such surface fractal aggregates and which would allow the subdivision between inter- and intraparticle interferences of such aggregates. Here, we show that by including a form factor function of the primary particles building the aggregate, a finite size of the surface fractal interfacial sub-surfaces can be derived from a structure factor term. This formalism allows us to define both a finite specific surface area for fractal aggregates and the fraction of particle interfacial sub-surfaces at the perimeter of an aggregate. The derived surface fractal model is validated by comparing it with an ab initio approach that involves the generation of a "brick-in-a-wall" von Koch type contour fractals. Moreover, we show that this approach explains observed scattering intensities from in situ experiments that followed gypsum (CaSO4·2H2O) precipitation from highly supersaturated solutions. Our model of densely packed "brick-in-a-wall" surface fractal aggregates may well be the key precursor step in the formation of several types of mosaic- and meso-crystals. [ABSTRACT FROM AUTHOR]

Published

2016

8. How Short-Lived Ikaite Affects Calcite Crystallization.

Author

Besselink, R., Rodriguez-Blanco, J. D., Stawski, T. M., Benning, L. G., and Tobler, D. J.

Subjects

*CALCITE crystals, *CRYSTALLIZATION, *NANOCRYSTALS, *NANOCRYSTAL synthesis, *CALCIUM carbonate

Abstract

The pathways of CaCO3 crystallization are manifold, often involving one or several metastable amorphous or nanocrystalline intermediate phases. The presence of such intermediates is often overlooked, because they are short-lived and/or occur at small molar fractions. However, their occurrence does not just impact the mechanisms and pathways of formation of the final stable CaCO3 phase, but also affects their crystal size, shape, and structure. Here we document the presence of a short-lived intermediate through in situ and time-resolved small and wide-angle X-ray scattering combined with high resolution electron microscope observations. When ikaite forms concomitant with the dissolution of amorphous calcium carbonate (ACC) but prior to calcite formation, fairly large glendonite-type calcite crystals grow despite the presence of citrate ligands that usually reduce crystal size. These were ideal seeding crystals for further crystallization from supersaturated ions in solution. In contrast, in the absence of ikaite the crystallization of calcite proceeds through transformation from ACC, resulting in fine-grained spherulitic calcite with sizes ~8 times smaller than when ikaite was present. Noteworthy is that the formation of the intermediate ikaite, although it consumes less than 3 mol % of the total precipitated CaCO3, still clearly affected the calcite formation mechanism. [ABSTRACT FROM AUTHOR]

Published

2017

9. Hierarchical synchrotron diffraction and imaging study of the calcium sulfate hemihydrate-gypsum transformation.

Author

La Bella M, Besselink R, Wright JP, Van Driessche AES, Fernandez-Martinez A, and Giacobbe C

Abstract

The mechanism of hydration of calcium sulfate hemihydrate (CaSO 4 ·0.5H 2 O) to form gypsum (CaSO 4 ·2H 2 O) was studied by combining scanning 3D X-ray diffraction (s3DXRD) and phase contrast tomography (PCT) to determine in situ the spatial and crystallographic relationship between these two phases. From s3DXRD measurements, the crystallographic structure, orientation and position of the crystalline grains in the sample during the hydration reaction were obtained, while the PCT reconstructions allowed visualization of the 3D shapes of the crystals during the reaction. This multi-scale study unfolds structural and morphological evidence of the dissolution-precipitation process of the gypsum plaster system, providing insights into the reactivity of specific crystallographic facets of the hemihydrate. In this work, epitaxial growth of gypsum crystals on the hemihydrate grains was not observed., (© Michela La Bella et al. 2023.)

Published

2023

10. A template-free and low temperature method for the synthesis of mesoporous magnesium phosphate with uniform pore structure and high surface area.

Author

Hövelmann J, Stawski TM, Besselink R, Freeman HM, Dietmann KM, Mayanna S, Pauw BR, and Benning LG

Abstract

Mesoporous phosphates are a group of nanostructured materials with promising applications, particularly in biomedicine and catalysis. However, their controlled synthesis via conventional template-based routes presents a number of challenges and limitations. Here, we show how to synthesize a mesoporous magnesium phosphate with a high surface area and a well-defined pore structure through thermal decomposition of a crystalline struvite (MgNH4PO4·6H2O) precursor. In a first step, struvite crystals with various morphologies and sizes, ranging from a few micrometers to several millimeters, had been synthesized from supersaturated aqueous solutions (saturation index (SI) between 0.5 and 4) at ambient pressure and temperature conditions. Afterwards, the crystals were thermally treated at 70-250 °C leading to the release of structurally bound water (H2O) and ammonia (NH3). By combining thermogravimetric analyses (TGA), scanning and transmission electron microscopy (SEM, TEM), N2 sorption analyses and small- and wide-angle X-ray scattering (SAXS/WAXS) we show that this decomposition process results in a pseudomorphic transformation of the original struvite into an amorphous Mg-phosphate. Of particular importance is the fact that the final material is characterized by a very uniform mesoporous structure with 2-5 nm wide pore channels, a large specific surface area of up to 300 m2 g-1 and a total pore volume of up to 0.28 cm3 g-1. Our struvite decomposition method is well controllable and reproducible and can be easily extended to the synthesis of other mesoporous phosphates. In addition, the so produced mesoporous material is a prime candidate for use in biomedical applications considering that magnesium phosphate is a widely used, non-toxic substance that has already shown excellent biocompatibility and biodegradability.

Published

2019

11. Mechanism of silica-lysozyme composite formation unravelled by in situ fast SAXS.

Author

Stawski TM, van den Heuvel DB, Besselink R, Tobler DJ, and Benning LG

Abstract

A quantitative understanding of aggregation mechanisms leading to the formation of composites of inorganic nanoparticles (NPs) and proteins in aqueous media is of paramount interest for colloid chemistry. In particular, the interactions between silica (SiO 2 ) NPs and lysozyme (LZM) have attracted attention, because LZM is well-known to adsorb strongly to silica NPs, while at the same time preserving its enzymatic activity. The inherent nature of the aggregation processes leading to NP-LZM composites involves structural changes at length scales from few to at least hundreds of nanometres but also time scales much smaller than one second. To unravel these we used in situ synchrotron-based small-angle X-ray scattering (SAXS) and followed the subtle interparticle interactions in solution at a time resolution of 50 ms/frame (20 fps). We show that if the size of silica NPs (ca. 5 nm diameter) is matched by the dimensions of LZM, the evolving scattering patterns contain a unique structure-factor contribution originating from the presence of LZM. We developed a scattering model and applied it to analyse this structure function, which allowed us to extract structural information on the deformation of lysozyme molecules during aggregation, as well as to derive the mechanisms of composite formation.

Published

2019

12. Following the Kinetics of Barium Titanate Nanocrystal Formation in Benzyl Alcohol Under Near-Ambient Conditions.

Author

Veldhuis SA, Stawski TM, Gonzalez Rodriguez P, Yuan H, Besselink R, Benning LG, and Ten Elshof JE

Abstract

In complex chemical syntheses (e.g., coprecipitation reactions), nucleation, growth, and coarsening often occur concurrently, obscuring the individual processes. Improved knowledge of these processes will help to better understand and optimize the reaction protocol. Here, a form-free and model independent approach, based on a combination of time-resolved small/wide-angle X-ray scattering, is employed to elucidate the effect of reaction parameters (such as precursor concentration, reactant stoichiometry, and temperature) on the nucleation, crystallization, and growth phenomena during the formation of nanocrystalline barium titanate. The strength of this approach is that it relies solely on the total scattered intensity (i.e., scattering invariant) of the investigated system, and no prior knowledge is required. As such, it can be widely applied to other synthesis protocols and material's systems. Through the scattering invariant, it is found that the amorphous-to-crystalline transformation of barium titanate is predominantly determined by the total amount of water released from the gel-like barium hydroxide octahydrate precursor, and three rate-limiting regimes are established. As a result of this improved understanding of the effect of varying reaction conditions, elementary boundary conditions can be set up for a better control of the barium titanate nanocrystal synthesis., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

13. Formation of calcium sulfate through the aggregation of sub-3 nanometre primary species.

Author

Stawski TM, van Driessche AE, Ossorio M, Diego Rodriguez-Blanco J, Besselink R, and Benning LG

Abstract

The formation pathways of gypsum remain uncertain. Here, using truly in situ and fast time-resolved small-angle X-ray scattering, we quantify the four-stage solution-based nucleation and growth of gypsum (CaSO4·2H2O), an important mineral phase on Earth and Mars. The reaction starts through the fast formation of well-defined, primary species of <3 nm in length (stage I), followed in stage II by their arrangement into domains. The variations in volume fractions and electron densities suggest that these fast forming primary species contain Ca-SO4-cores that self-assemble in stage III into large aggregates. Within the aggregates these well-defined primary species start to grow (stage IV), and fully crystalize into gypsum through a structural rearrangement. Our results allow for a quantitative understanding of how natural calcium sulfate deposits may form on Earth and how a terrestrially unstable phase-like bassanite can persist at low-water activities currently dominating the surface of Mars.

Published

2016

14. The Rapid Exfoliation and Subsequent Restacking of Layered Titanates Driven by an Acid-Base Reaction.

Author

Yuan H, Dubbink D, Besselink R, and ten Elshof JE

Abstract

Two-dimensional (2D) (hydro)oxide materials, that is, nanosheets, enable the preparation of advanced 2D materials and devices. The general synthesis route of nanosheets involves exfoliating layered metal (hydro)oxide crystals. This exfoliation process is considered to be time-consuming, hindering their industrial-scale production. Based on in situ exfoliation studies on the protonated layered titanate H(1.07)Ti(1.73)O4⋅H2O (HTO), it is now shown that ion intercalation-assisted exfoliation driven by chemical reaction provides a viable and fast route to isolated nanosheets. Contrary to the general expectation, data indicate that direct exfoliation of HTO occurs within seconds after mixing of the reactants, instead of proceeding via a swollen state as previously thought. These findings reveal that ion intercalation-assisted exfoliation driven by chemical reaction is a promising exfoliation route for large-scale synthesis., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

15. Mass-fractal growth in niobia/silsesquioxane mixtures: a small-angle X-ray scattering study.

Author

Besselink R and Ten Elshof JE

Abstract

The nucleation and growth of niobium pentaethoxide (NPE)-derived clusters in ethanol, through acid-catalyzed hydrolysis/condensation in the presence and absence of the silsesquioxane 1,2-bis(triethoxysilyl)ethane (BTESE), was monitored at 298-333 K by small-angle X-ray scattering. The data were analyzed with a newly derived model for polydisperse mass-fractal-like structures. At 298-313 K in the absence of BTESE the data indicated the development of relatively monodisperse NPE-derived structures with self-preserving polydispersity during growth. The growth exponent was consistent with irreversible diffusion-limited cluster agglomeration. At 333 K the growth exponent was characteristic for fast-gelling reaction-limited cluster agglomeration. The reaction yielded substantially higher degrees of polydispersity. In the presence of BTESE the growth exponents were substantially smaller. The smaller growth exponent in this case is not consistent with irreversible Smoluchowski-type agglomeration. Instead, reversible Lifshitz-Slyozov-type agglomeration seems to be more consistent with the experimental data.

Published

2014

16. Improved Langmuir-Blodgett titanate films via in situ exfoliation study and optimization of deposition parameters.

Author

Yuan H, Lubbers R, Besselink R, Nijland M, and Ten Elshof JE

Abstract

The exfoliation and deposition of large (10-100 μm) Ti0.87O2 and small (0.1-1 μm) Ti0.91O2 nanosheets from lepidocrocite-type protonated titanates was investigated for getting high quality films. Exfoliation was carried out with different tetra-alkyl ammonium ions (TAA(+)) and varying TAA(+)/H(+) ratios, and the colloidal solutions were characterized by small-angle X-ray scattering (SAXS) and ultraviolet-visible (UV-vis) spectroscopy. Using Langmuir-Blodgett deposition the titanate nanosheets were directly transferred onto a Si substrate. The resulting films were characterized by atomic force microscopy (AFM).The results indicate that the H1.07Ti1.73O4 titanate exfoliated at very low ratios of TAA(+)/H(+); no lower threshold for exfoliation was observed for the TAA(+) concentration. Nanosheets exfoliated at very low ratios of TAA(+)/H(+) typically showed a small size and porous surface. Subsequent exfoliation of the remaining layered titanate particles yielded much higher quality nanosheets. The optimized deposition parameters for Langmuir-Blodgett films suggest that the surface pressure is a key parameter to control the coverage of the film. The bulk concentration of nanosheets was found to be a less important deposition parameter in the LB deposition process. It only influenced whether the desired surface pressure could be reached at a given maximum degree of compression.

Published

2014

17. The swelling transition of lepidocrocite-type protonated layered titanates into anatase under hydrothermal treatment.

Author

Yuan H, Besselink R, Liao Z, and Ten Elshof JE

Abstract

The common facets of anatase crystals are the (001) and (101) planes. However, the phase transformation from lepidocrocite-type titanate into anatase by hydrothermal processing yields an anatase microstructure with high concentration of exposed (010) planes. The phase transformation of a lepidocrocite-type protonated layered titanate (HTO) into anatase was studied using XRD, TEM, FTIR, and measurement of pH and zeta potential. It was found that HTO is proton-deficient. The phase transformation process begins after uptake of a sufficient number of protons into the lepidocrocite-type structure. With the uptake of protons new hydroxyl groups form on the internal surfaces of the layered titanate and result in a bilayer state of HTO. The phase transformation reaction is a topotactic dehydration reaction in which anatase forms and water is expelled by syneresis.

Published

2014

18. Evolution of microstructure in mixed niobia-hybrid silica thin films from sol-gel precursors.

Author

Besselink R, Stawski TM, Castricum HL, and ten Elshof JE

Subjects

Solvents, Surface Properties, Membranes, Artificial, Niobium chemistry, Silicon Dioxide chemistry

Abstract

The evolution of structure in sol-gel derived mixed bridged silsesquioxane-niobium alkoxide sols and drying thin films was monitored in situ by small-angle X-ray scattering. Since sol-gel condensation of metal alkoxides proceeds much faster than that of silicon alkoxides, the incorporation of d-block metal dopants into silica typically leads to formation of densely packed nano-sized metal oxide clusters that we refer as metal oxide building blocks in a silica-based matrix. SAXS was used to study the process of niobia building block formation while drying the sol as a thin film at 40-80°C. The SAXS curves of mixed niobia-hybrid silica sols were dominated by the electron density contrast between sol particles and surrounding solvent. As the solvent evaporated and the sol particles approached each other, a correlation peak emerged. Since TEM microscopy revealed the absence of mesopores, the correlation peak was caused by a heterogeneous system of electron-rich regions and electron poor regions. The regions were assigned to small clusters that are rich in niobium and which are dispersed in a matrix that mainly consisted of hybrid silica. The correlation peak was associated with the typical distances between the electron dense clusters and corresponded with distances in real space of 1-3 nm. A relationship between the prehydrolysis time of the silica precursor and the size of the niobia building blocks was observed. When 1,2-bis(triethoxysilyl)ethane was first hydrolyzed for 30 min before adding niobium penta-ethoxide, the niobia building blocks reached a radius of 0.4 nm. Simultaneous hydrolysis of the two precursors resulted in somewhat larger average building block radii of 0.5-0.6 nm. This study shows that acid-catalyzed sol-gel polymerization of mixed hybrid silica niobium alkoxides can be rationalized and optimized by monitoring the structural evolution using time-resolved SAXS., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

19. One-day core needle biopsy in a breast clinic: 4 years experience.

Author

Bulte JP, Polman L, Schlooz-Vries M, Werner A, Besselink R, Sessink K, Mus R, Lardenoije S, Imhof-Tas M, Bulten J, van Engen-van Grunsven AC, Schaafsma E, Strobbe LJ, Bult P, and De Wilt JH

Subjects

Breast Neoplasms surgery, Female, Follow-Up Studies, Humans, Prospective Studies, Sensitivity and Specificity, Time Factors, Ultrasonography, Interventional methods, Biopsy, Large-Core Needle, Breast Neoplasms pathology

Abstract

Many attempts have been made to combine the high diagnostic accuracy and conclusive rate of core needle biopsy (CNB) with the speed of fine needle aspiration cytology in evaluation of solid breast lesions. Multiple hybrid techniques have been developed to achieve this. We describe a cohort of patients for whom we used a relatively new, accelerated method of CNB processing, allowing for a definitive diagnosis the same day. All patients visiting the Radboud University Nijmegen Medical Centre breast clinic during a 4-year period were reviewed to identify all CNBs in this period performed in a same-day diagnosis track. CNB result was compared to post-operative pathology reports when available, and to follow-up when patients were not surgically treated. 1,060 patients underwent CNB of 1,383 lesions, 898 of which in a same-day diagnosis track with a sensitivity of 96.9 % and a specificity of 99.4 %. The inconclusive rate was 9.2 %. For a same-day diagnosis for solid breast lesions, we could give a conclusive diagnosis with accelerated CNB processing in 65 % of our patients requiring CNB. This technique can be used reliably in a same-day diagnosis breast clinic with a very high sensitivity, specificity, and conclusive rate.

Published

2013

20. Time-resolved small angle X-ray scattering study of sol-gel precursor solutions of lead zirconate titanate and zirconia.

Author

Stawski TM, Besselink R, Veldhuis SA, Castricum HL, Blank DH, and ten Elshof JE

Abstract

The evolution of nanostructure in sol-gel derived lead zirconate titanate (PZT) and zirconia precursor sols at different hydrolysis ratios was investigated by small angle X-ray scattering (SAXS). The shape of the clusters in the zirconia sol could be described by the length-polydisperse cylindrical form factor. The zirconia-based clusters were characterized by a cross-sectional radius, r(0), of 0.28 nm and a practically monodisperse length of ca. 1.85 nm. These clusters were probably constructed of zirconia-related tetrameric building blocks. Similar cylindrical structural motifs were observed in PZT precursor sols with [H(2)O]/[Zr+Ti]=9.26 and 27.6, but the polydispersity in length was much higher. Clear scattering contributions from Ti and Pb centers were not detected, which was interpreted in terms of a homogeneous distribution of unbound lead ions in solution and the relatively low scattering intensity from any Ti-based clusters or oligomers that may have been present in the sols., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2012

21. Detailed analysis of health status of Q fever patients 1 year after the first Dutch outbreak: a case-control study.

Author

Limonard GJ, Peters JB, Nabuurs-Franssen MH, Weers-Pothoff G, Besselink R, Groot CA, Dekhuijzen PN, and Vercoulen JH

Subjects

Disease Outbreaks, Epidemiologic Methods, Female, Humans, Male, Netherlands epidemiology, Q Fever epidemiology, Q Fever immunology, Time Factors, Coxiella burnetii immunology, Health Status, Q Fever physiopathology

Abstract

Background: Q fever is a zoonosis caused by the obligate intracellular bacterium Coxiella burnetii. The two long-term complications, after primary infection, are chronic Q fever in ∼1% of patients, and a chronic fatigue syndrome in 10-20%. However, the existence of a protracted decreased health status after Q fever remains controversial., Aim: To determine the health status of the patients of the Q fever outbreak in The Netherlands in 2007, 1 year after primary infection., Design: Cross-sectional case-control study., Methods: Health status of the patients from the 2007 Dutch Q fever outbreak was compared to age-, sex- and geographically matched and Q fever seronegative controls. Health status of both patients and controls was assessed with the Nijmegen Clinical Screening Instrument (NCSI)., Results: Fifty-four Q fever patients provided 34 years of age- and sex-matched controls from the same neighbourhood. Eleven controls had positive Q fever serology and were excluded. Q fever patients had significantly more problems on the subdomains of symptoms and functional impairment. Overall quality of life was decreased in both patients and controls, 59% vs. 39%, respectively, ns). Severe fatigue levels were present in 52% of patients vs. 26% in controls (P < 0.05)., Conclusion: These data support a sustained decrease in many aspects of health status in Q fever patients in The Netherlands, 1 year after primary infection.

Published

2010

22. Influence of dialysate exchange on cardiac left ventricular function in children treated with CAPD.

Author

Besselink RA, Schroder CH, and van Oort AM

Subjects

Child, Preschool, Dialysis Solutions, Echocardiography, Female, Humans, Kidney Failure, Chronic physiopathology, Male, Peritoneal Cavity, Kidney Failure, Chronic therapy, Peritoneal Dialysis, Continuous Ambulatory, Ventricular Function, Left physiology

Abstract

The influence of peritoneal dialysate exchange on the ventricular function in 11 children on continuous ambulatory peritoneal dialysis (CAPD) therapy was studied before and after instillation dialysate. Systolic blood pressure, pulse rate, and echocardiographical data (shortening fraction and pre-ejection period/left ventricle ejection time-ratio) were obtained before and after instillation. There were no differences present with respect to the measured parameters after the abdomen was filled. It is concluded that in children treated with CAPD the exchange of normal volumes of dialysate has no influence on the function of the left ventricle.

Published

1991