Diffusion and Tortuosity in Porous Functionalized Calcium Carbonate

Levy, Charlotte L.; Matthews, G. Peter; Laudone, Giuliano M.; Gribble, Christopher M.; Turner, Andrew; Ridgway, Cathy J.; Gerard, Daniel E.; Schoelkopf, Joachim; Gane, Patrick

doi:10.1021/acs.iecr.5b02362

Cited by 17 publications

(13 citation statements)

References 39 publications

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“…The functionalization consists of a shell‐core structure of hydroxyapatite (Ca 5 (OH)(PO 4 ) 3 ) (52.7%) and calcium carbonate (CaCO 3 ) (47.3%). FCC is prepared by etching the surface particles of calcium carbonate pigment with phosphoric acid and then reprecipitating them to create a highly porous plate‐like, nanometer thick lamellar structure resulting in a pigment with inter‐ and intraparticle porosity (Table S2, Supporting Information). Two types of MFC, a commercially available Arbocel MF‐40‐7 (J. Rettenmaier & Söhne GmbH + Co KG, Rosenberg, Germany), termed MFC A, and a mechanically produced micro nanofibrillated cellulose (Omya International AG, Oftringen, Switzerland), termed MFC B, were evaluated as binders.…”

Section: Methodsmentioning

confidence: 99%

“…Custom‐designed functional materials have recently been developed for use in coatings with a view to microfluidic assays. [12a,16] Unlike cellulose‐based papers, which consist of approximately 1.5 mm long and 20‐µm wide fibers, the custom coatings consist of micrometer‐sized particles . Compared with commercial filter and chromatographic papers, the custom coatings are also highly porous, but have the advantage that the pore structure can be controlled by design and, due to the particle size and compatibility of the constituents, are more homogeneous, such that their finer pore network structure allows for more uniform and repeatable (interassay) wicking kinetics within a structurally rigid framework, resulting from the fact that the flow is through the bulk instead of film flow along the fiber walls, as is the case in fibrous cellulose substrates.…”

Section: Introductionmentioning

confidence: 99%

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Microfluidic Lateral Flow Cytochrome P450 Assay on a Novel Printed Functionalized Calcium Carbonate‐Based Platform for Rapid Screening of Human Xenobiotic Metabolism

Jutila

Koivunen

Kiiski

et al. 2018

Adv Funct Materials

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Cytochrome P450 (CYP) is a superfamily of enzymes in charge of elimination of the majority of clinically used drugs and other xenobiotics.This study focuses on the development of a rapid microfluidic lateral flow assay to study human phase I metabolism reactions mediated by CYP2A6 isoenzyme, the major detoxification route for many known carcinogens and drugs, with coumarin 7-hydroxylation, as the prototype model reaction. Assay fabrication utilizes custom-designed porous functionalized calcium carbonate (FCC) coatings and inkjet-printed fluid barriers. All materials used are novel and carefully chosen to preserve biocompatibility. The design comprises separate zones for reaction, separation and detection, and an absorbent pad to keep the assay wet for extended periods (up to 10 min) even when heated to physiological temperature. The concept enables CYP assays to be made at lower cost than conventional well-plate assays, while providing increased selectivity at equally high speed, owing to the possibility for simultaneous chromatographic separation of the reaction products from the reactants on the FCC coating. The developed concept provides a viable rapid prediction of the interaction risks related to metabolic clearance of drugs and other xenobiotics, and exemplifies a novel coating technology illustrating the opportunity to broaden application functionality.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Microfluidic Lateral Flow Cytochrome P450 Assay on a Novel Printed Functionalized Calcium Carbonate‐Based Platform for Rapid Screening of Human Xenobiotic Metabolism

Jutila

Koivunen

Kiiski

et al. 2018

Adv Funct Materials

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“…By the combined interpretation of the hydraulic properties and the pore space configuration, we can assess the rock hydraulic functionality at the rock matrix scale. For this purpose, the above parameters, and especially the intrusion and extrusion curves of MCIP, were used as an input in a 3D simulation of fluid circulation by means of the Pore-Cor RS 6.0 suite [8,25,31,32].…”

Section: Applied Techniques and Methodsmentioning

confidence: 99%

Petrographic and Petrophysical Characterization of Detrital Reservoir Rocks for CO2 Geological Storage (Utrillas and Escucha Sandstones, Northern Spain)

Mateos-Redondo¹,

Kovács²,

Berrezueta

2018

Geosciences

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Abstract:The aim of this article is to provide a qualitative and quantitative description of Lower-Upper Cretaceous detrital rocks (Escucha and Utrillas sandstones) in order to explore their potential use as CO 2 reservoirs based on their petrographic and petrophysical characteristics. Optical microscopy (OpM) and scanning electron microscopy (SEM) aided by optical image analysis (OIA) were used to get qualitative and quantitative information about mineralogy, texture and pore network structure. Complementary analyses by X-ray fluorescence (XRF) and X-ray diffraction (XRD) were performed to refine the mineralogical information and to obtain whole rock geochemical data. Furthermore, mercury injection capillary pressure analysis (MICP), the gas permeameter test (GPT) and the hydraulic test (HT) were applied to assess the potential storage capacity and the facility of fluid flow through the rocks. Both of these factors have an outstanding importance in the determination of CO 2 reservoir potential. The applied petrophysical and petrographic methods allowed an exhaustive characterization of the samples and a preliminary assessment of their potential as a CO 2 reservoir. The studied conglomerates and sandstones have a porosity range of 8-26% with a dominant pore size range of 80-500 µm. The grain skeleton consists of quartz (95%), very minor potassium feldspars (orthoclase) and a small amount of mica (muscovite and chlorite). According to these preliminary results, among the studied varieties, the Escucha sandstones have the most favorable properties for CO 2 geological storage at the rock matrix scale.

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“…Functionalised calcium carbonate (FCC) is produced by etching calcium carbonate particles and re-precipitating a modified surface structure with in situ or externally supplied CO 2 in the form of carbonic acid (Ridgway et al 2004;Levy et al 2015Levy et al , 2017. Variations in the etching process produce a range of morphologies with recrystallised surfaces, consisting of incorporated hydroxyapatite (HAP) in the case of phosphoric acid, which are discretely separable dual porous systems with inter-and intra-particle porosity.…”

Section: Mineralsmentioning

confidence: 99%

“…Under these circumstances, the usual requirement is to keep the catalyst particles apart, suspended in an inert matrix which nevertheless allows flow of a fluid past the particles. If the active material is porous, this approach can be used to separate the inter-and intra-particle diffusion effects (Levy et al 2015). Consequently, there are many studies of the likelihood of particles touching each other, for example, by Bezdek and Reid (2013).…”

Section: Calcium Carbonate Mixturesmentioning

confidence: 99%

Improved Interpretation of Mercury Intrusion and Soil Water Retention Percolation Characteristics by Inverse Modelling and Void Cluster Analysis

et al. 2018

Self Cite

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This work addresses two continuing fallacies in the interpretation of percolation characteristics of porous solids. The first is that the first derivative (slope) of the intrusion characteristic of the non-wetting fluid or drainage characteristic of the wetting fluid corresponds to the void size distribution, and the second is that the sizes of all voids can be measured. The fallacies are illustrated with the aid of the PoreXpert ® inverse modelling package. A new void analysis method is then described, which is an add-on to the inverse modelling package and addresses the second fallacy. It is applied to three widely contrasting and challenging porous media. The first comprises two fine-grain graphites for use in the next-generation nuclear reactors. Their larger void sizes were measured by mercury intrusion, and the smallest by using a grand canonical Monte Carlo interpretation of surface area measurement down to nanometre scale. The second application is to the mercury intrusion of a series of mixtures of ground calcium carbonate with powdered microporous calcium carbonate known as functionalised calcium carbonate (FCC). The third is the water retention/drainage characteristic of a soil sample which undergoes naturally occurring hydrophilic/hydrophobic transitions. The first-derivative approximation is shown to be reasonable in the interpretation of the mercury intrusion porosimetry of the two graphites, which differ only at low mercury intrusion

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Diffusion and Tortuosity in Porous Functionalized Calcium Carbonate

Cited by 17 publications

References 39 publications

Microfluidic Lateral Flow Cytochrome P450 Assay on a Novel Printed Functionalized Calcium Carbonate‐Based Platform for Rapid Screening of Human Xenobiotic Metabolism

Microfluidic Lateral Flow Cytochrome P450 Assay on a Novel Printed Functionalized Calcium Carbonate‐Based Platform for Rapid Screening of Human Xenobiotic Metabolism

Petrographic and Petrophysical Characterization of Detrital Reservoir Rocks for CO2 Geological Storage (Utrillas and Escucha Sandstones, Northern Spain)

Improved Interpretation of Mercury Intrusion and Soil Water Retention Percolation Characteristics by Inverse Modelling and Void Cluster Analysis

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