abstract

• This work deals with the carminic acid stabilization in a silica matrix and the study of structural properties. Results indicate that silica provides exceptional thermal stability to the carminic dye because its functional properties remain without significant changes up to 500 °C. The embedded carminic acid changes the crystallization behavior of silica. The carminic acid extracted from Mexican cochineal was firstly stabilized with sucrose and after embedded in a silica matrix using the sol-gel method. The structural behavior was analyzed in function of temperature from RT to 900 °C. The resulting properties were studied using X-ray diffraction and FT-IR spectroscopy. Interaction of carminic acid with silica reduces the formation temperature of tridymite and cristobalite. Amorphous tridymite was detected at 400 °C, semicrystalline tridymite at 700 °C, α-cristobalite at 800 °C, and β-cristobalite at 900 °C. The improved stability of carminic acid results from its interaction with the silica, which also modifies the silica crystallization kinetics. © 2020 Elsevier B.V.

authors

• Barrientos-Hernández F.R.
• Espericueta D.L.
• Herrera-González A.M.
• Lobo-Guerrero A.
• Martínez Mendoza José Refugio
• Ortega Zarzosa Gerardo
• Serrano G.G.
• Velázquez-Pérez S.

publication date

• 2020-01-01

published in

• Physica B: Condensed Matter  Journal

keywords

• Carmine cochineal; Organic-inorganic composites; Silica crystallization; Sol-gel method Crystallization kinetics; Dyes; Silica gel; Silicate minerals; Sol-gel process; Sol-gels; Sugar (sucrose); Cochineal dyes; Crystallization behavior; Formation temperature; FTIR spectroscopy; Functional properties; Semicrystallines; Structural behaviors; Thermo-structural behaviors; Silica

Digital Object Identifier (DOI)

• 10.1016/j.physb.2020.412438

start page

end page

volume

• 598