Relative stability of hydrated/anhydrous products of calcium chloride during complete dehydration as examined by high-temperature X-ray powder diffraction

Karunadasa, Kohobhange S. P.; Manoratne, C.H.; Pitawala, H.M.T.G.A.; Rajapakse, R.M.G.

doi:10.1016/j.jpcs.2018.04.034

Cited by 31 publications

(28 citation statements)

References 17 publications

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“…By analyzing the TGA of CaCl 2 •2H 2 O, a considerable weight loss was clearly observed between 25°C and 130°C that was ascribed to the endothermic removal of crystalline and loosely bound surface water, as it was also observed by Karunadasa et al [19]. There was a first endothermic dehydration at around 130°C accounted for the emergence of monohydrate calcium chloride (CaCl 2 .H 2 O) ( Fig.…”

Section: Characterization Of Components By Tgasupporting

confidence: 60%

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Characterization of Core-Shell Alginate Capsules

2019

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A new droplets millifluidic/inverse gelation based process was used to produce core-shell alginate milli-capsules. Water-in-oil (W/O) emulsion dispersed phase containing Ca 2+ ions was directly injected into a continuous alginate phase to generate a secondary W/O/W emulsion. Due to the cross-linking of alginate molecules by Ca 2+ ions release, core-shell milli-capsules were formed with a very high oil loading. The influence of the curing time and of the storage conditions on capsules physico-chemical properties were investigated. It was first found as expected that alginate membrane thickness increased with curing time in the collecting bath. However, a plateau was reached for the higher curing times, in close relation with previous observations (Martins, Poncelet, Marquis, Davy, & Renard, 2017b) that an external oil layer surrounded the surface of W/O emulsion drops that acted as a barrier and hindered the release of aqueous CaCl 2 droplets during curing time. Compression experiments on individual capsules revealed that alginate membrane thickness was inversely related to its mechanical properties, i.e. the thicker membrane, the lower surface Young modulus. Surface Young modulus ranged from 61 to 26 N/m at curing times of 3 and 45 min, respectively. This result was explained in terms of enhanced swelling properties of alginate membrane with curing time or storage conditions. Drying capsules led to much more resistant membranes due to the loss of water. Oil loading of 80 wt% was obtained for dry capsules whatever the conditions used.

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Section: Characterization Of Components By Tgasupporting

confidence: 60%

“…3, dTGA curve). This was a good indication of the strong association of crystalline water in monohydrate that requires a considerable amount of thermal energy to eliminate it from the monohydrate [19].…”

Section: Characterization Of Components By Tgamentioning

confidence: 97%

Characterization of Core-Shell Alginate Capsules

2019

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“…This corrosive impurity is fundamentally caused by the hygroscopic nature of the MgCl2 component in the ternary salt (i.e., MgCl2 takes various forms of hydrates, such as MgCl2•H2O, MgCl2•2H2O, MgCl2•4H2O, and MgCl2•6H2O). Very similar behaviors to produce hydroxychloride during salt dehydration had been found in CaCl2 salt as well [16,17,[31][32][33][34][35]. To mitigate the risks of the corrosive hydroxychloride species, multiple methods for salt dehydration and purification have been proposed, such as thermal treatment by controlled heating [26,29,43,31,[36][37][38][39][40][41][42], reduction by elemental Mg [19,22,23,25], dehydration with ammonium chloride [14,29,42,44,45], and carbochlorination with CO, Cl2, and/or CCl4 to remove oxide species [13,14,46,47].…”

Section: Introductionmentioning

confidence: 80%

“…Another experiment was conducted at 550°-570°C where the salt was purified without Mg for ~ 5 hours to release as much HCl and H2O as possible. 34 A Mg piece was then added into the molten salt. After about 5-8 minutes, a maximum of 150 ppm of H2 was detected for less than 4 minutes.…”

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confidence: 99%

“…But we believe, given the success of the experiments at 550°-570°C, holding the molten salt at 650°-700°C with sufficient gas sparging for ~2 hours (i.e., enough to remove most HCl based on results in Figure 9) should significantly reduce or even eliminate H2 generation. 34 Because the experimental setup, HCl monitoring was not used. At 550°-570°C, 5 hours of holding without gas sparging (due to time constraints, longer holding was not performed) is not sufficient to remove all HCl based on results in Table 7.…”

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confidence: 99%

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Molten Chloride Thermophysical Properties, Chemical Optimization, and Purification

Zhao

2020

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A binder‐free composite of graphite and kaolinite as a stable working electrode for general electrochemical applications

Karunadasa

Rathnayake

Manoratne

et al. 2021

Electrochemical Science Adv

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Composite electrodes are essential to overcome dynamic challenges related to electrodes made of polymeric binders. Herein, this work reports a composite electrode consisting of graphite and kaolinite (GKCE) as a potential alternative for commercial electrodes. The GKCE series exhibits exponential decay in resistivity parallel to the linear increase in mechanical strength depending on the relative strength of the unique lamella‐like graphite structure when going from low to high graphite percentage. GKCE with 80% graphite employed as the model working electrode for analyte detection and electropolymerization. GKCE can produce a typical voltammogram response with a narrow potential range and highest sensitivity (1.2 A m/mol) towards the analyte (Fe2+/Fe3+) compared to commercial working electrodes. Electropolymerization with GKCE leads to a polyaniline network consisting of nanofibers with the lowest charge transfer resistance of 403 Ω. GKCE is a potential low‐cost electrode for general electrochemical applications in comparison with expensive commercial working electrodes.

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Relative stability of hydrated/anhydrous products of calcium chloride during complete dehydration as examined by high-temperature X-ray powder diffraction

Cited by 31 publications

References 17 publications

Characterization of Core-Shell Alginate Capsules

Characterization of Core-Shell Alginate Capsules

Molten Chloride Thermophysical Properties, Chemical Optimization, and Purification

A binder‐free composite of graphite and kaolinite as a stable working electrode for general electrochemical applications

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