Degradation behaviour of borosilicate glass: some studies

Manikandan, S.; Jagannath,; Shrikhande, V.K.; Kothiyal, G.P.

doi:10.1108/00035590610692581

Cited by 8 publications

(3 citation statements)

References 10 publications

(11 reference statements)

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“…The presence of chlorine in the cobalt containing precursors is attributed to the chloride ions intercalated between the hydroxide layers, while in the case of b-Ni(OH) 2 the presence of chlorine is attributed to the ions adsorbed within the crystal lattice [52]. Negligible amount of silicon was present in all the reduced samples, which is attributed to the etching of borosilicate glass by NaOH [53].…”

Section: Edx Analysismentioning

confidence: 90%

Synthesis of nanocrystalline Co–Ni alloys by precursor approach and studies on their magnetic properties

Panday

Daniel

Jeevanandam

2011

Journal of Magnetism and Magnetic Materials

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Section: Edx Analysismentioning

confidence: 90%

Synthesis of nanocrystalline Co–Ni alloys by precursor approach and studies on their magnetic properties

Panday

Daniel

Jeevanandam

2011

Journal of Magnetism and Magnetic Materials

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“…Borosilicate was used as the choice of material for this study as it is known to be non-degradable under physiological conditions and does not release any bioactive substances that can affect cell fate. 18 This allowed assessment of 2D vs. 3D without interference from any inductive/toxic factors that may be released in case of other biodegradable materials. 19…”

Section: Methodsmentioning

confidence: 99%

Role of geometrical cues in bone marrow-derived mesenchymal stem cell survival, growth and osteogenic differentiation

et al. 2017

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A note on versions:The version presented here may differ from the published version or from the version of record. If you wish to cite this item you are advised to consult the publisher's version. Please see the repository url above for details on accessing the published version and note that access may require a subscription. AbstractMesenchymal stem cells (MSCs) play a vital role in bone formation process by differentiating into osteoblasts, in a tissue that offers not a flat but a discontinuous threedimensional (3D) topography in vivo. In order to understand how geometry may be affecting MSCs, this study explored the influence of 3D geometry on MSC-fate by comparing cell growth, viability and osteogenic potential using monolayer (twodimensional, 2D) with microsphere (3D) culture systems normalised to surface area. The results suggested lower cell viability and reduced cell growth in 3D. Alkaline phosphatase activity was higher in 3D; however, both collagen and mineral deposition appeared significantly lower in 3D, even after osteogenic supplementation. Also, there were signs of patchy mineralisation in 3D with or without osteogenic supplementation as early as day 7. These results suggest that the convex surfaces on microspheres and interparticulate porosity may have led to variable cell morphology and fate within the 3D culture. This study provides deeper insights into geometrical regulation of MSC responses applicable for bone tissue engineering.

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“…The precipitation of both CCSH phases and CaCO 3 was shown to increase with [Na + ] under the conditions tested. For the CCSH phases, the increase in [Na + ] is believed to boost the dissolution of both pseudowollastonite and borosilicate glass by slowly hydrolyzing silica along the exposed surfaces, − notionally described in eq . x SiO 2 ( am ) + normalH 2 O ( l ) + OH − ↔ Na + Si x normalO y false( OH false) δ ( aq ) …”

Section: Discussionmentioning

confidence: 99%

Coprecipitation of Crystalline Calcium Silicates and Carbonates from the Hydrothermal Reaction of Pseudowollastonite

Tolliver,

Nguyen,

Dela Cerna

et al. 2024

ACS Sustainable Chem. Eng.

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Calcium silicates are abundant but sparingly soluble feedstocks of interest for making low-carbon alternative cements. Under hydrothermal and alkaline conditions, they can form crystalline calcium silicate hydrate (CCSH) products, which are abundant in Roman concrete, or they can form carbonates when CO 2 is present. To understand when coprecipitation of CCSH and carbonate phases is possible, we studied the hydrothermal carbonation of a model calcium silicate, pseudowollastonite (α-CaSiO 3 ), at 150 °C and high pH as a function of CO 2 source [CO 2 (g) or Na 2 CO 3 ] and different concentrations of sodium, alumina, and silica. Our experiments produced a range of CCSH phases including tobermorite−13 Å, rhodesite, and pectolite, as early as 1 day after the start of our experiments. After 7 days of curing in a 2 M NaOH solution, over 10% of the samples had been converted to these CCSH phases. We also observed the formation of CaCO 3 as both aragonite and calcite when carbon was introduced to our experimental system. The carbon source impacted the ratio of the CaCO 3 to CCSH phases in the reaction products. The availability of Na 2 CO 3 produced a balance between the CaCO 3 and CCSH phases, whereas CO 2 (g) produced more CaCO 3 , with samples that were over one-third carbonate by mass. Higher concentrations of Na + increased the precipitation of both the CaCO 3 and CCSH phases. The presence of excess silica, in the form of dissolved borosilicate glass from our reaction vessels under alkaline reaction conditions, also enhanced the formation of CCSH phases formed in some experiments. Supplemental Al 2 O 3 , a common constituent in many silicate feedstocks, also enhanced CCSH formation, likely by forming aluminum-substituted phases under the conditions tested here. These chemical insights can enable the design of formulation and curing guidelines for novel cementitious materials.

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Degradation behaviour of borosilicate glass: some studies

Cited by 8 publications

References 10 publications

Synthesis of nanocrystalline Co–Ni alloys by precursor approach and studies on their magnetic properties

Synthesis of nanocrystalline Co–Ni alloys by precursor approach and studies on their magnetic properties

Role of geometrical cues in bone marrow-derived mesenchymal stem cell survival, growth and osteogenic differentiation

Coprecipitation of Crystalline Calcium Silicates and Carbonates from the Hydrothermal Reaction of Pseudowollastonite

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