R. Mendoza-Serna scite author profile

Carbonation reaction from the dissolution of minerals, mainly silicates, is an option for long-term storage of CO 2 , offering capacity exceeding that of other strategies, and certain advantages such as the formation of insoluble and inert products. This study presents the results of carbonation reactions utilizing silica aerogelwollastonite composites. The procedure for synthesis of the precursor powders with wollastonite stoicheiometry, as well as the compositional and textural features of the resulting composites, was examined first. The kinetic and efficiency of carbonation reactions in aerogel-wollastonite composites were also determined. X-ray diffraction quantitative analysis and thermogravimetric analysis were used to determine the proportions in percent of the resulting carbonate phases. The conversion reaction reaches values above 81% in composites with CaO content of up to 40% by weight, after 40 min of reaction time. The conclusion is that these aerogels, offering a very high specific surface area, are attractive potential materials for CO 2 sequestration and as a supporting material for fast carbonation reactions.

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Nanoindentation on hybrid organic/inorganic silica aerogels

Rosa–Fox¹,

Morales‐Flórez²,

Toledo-Fernández³

et al. 2007

Journal of the European Ceramic Society

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Control of the polymerization process of multicomponent (Si, Ti, Zr) sols using chelating agents

Méndez-Vivar¹,

Mendoza-Serna²,

Valdez-Castro³

2001

Journal of Non-Crystalline Solids

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Influence of isoeugenol as a chelating agent on the structure of Si–Ti polymeric systems obtained from alkoxides

Méndez-Vivar

Mendoza-Serna

Bosch

et al. 1999

Journal of Non-Crystalline Solids

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R. Mendoza-Serna

Chemically Active Silica Aerogel−Wollastonite Composites for CO₂ Fixation by Carbonation Reactions

Nanoindentation on hybrid organic/inorganic silica aerogels

Control of the polymerization process of multicomponent (Si, Ti, Zr) sols using chelating agents

Influence of isoeugenol as a chelating agent on the structure of Si–Ti polymeric systems obtained from alkoxides

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About

R. Mendoza-Serna

Chemically Active Silica Aerogel−Wollastonite Composites for CO2 Fixation by Carbonation Reactions

Nanoindentation on hybrid organic/inorganic silica aerogels

Control of the polymerization process of multicomponent (Si, Ti, Zr) sols using chelating agents

Influence of isoeugenol as a chelating agent on the structure of Si–Ti polymeric systems obtained from alkoxides

Contact Info

Product

Resources

About

Chemically Active Silica Aerogel−Wollastonite Composites for CO₂ Fixation by Carbonation Reactions