A Comprehensive Kinetic Study on the Enhanced Thermal Stability of Silica Xerogels with the Addition of Organochlorinated Substituents
Beatriz Rosales-Reina, Guillermo Cruz-Quesada, Pablo Pujol, Santiago Reinoso, César Elosúa, Gurutze Arzamendi, María Victoria López-Ramón, Julián J. Garrido

TL;DR
This paper studies how adding organochlorinated compounds to silica xerogels improves their thermal stability and controls their decomposition behavior.
Contribution
Quantitative kinetic analysis of thermal decomposition in organochlorinated xerogels using isoconversional methods and master plots.
Findings
Aromatic chlorinated groups (like 4-chlorophenyl) provide higher thermal stability than aliphatic ones.
Thermal decomposition occurs in two main stages with activation energies between 53 and 290 kJ mol−1.
Increasing precursor content reduces surface area and pore volume but promotes periodic domain formation.
Abstract
Hybrid silica xerogels functionalised with chlorinated organosilanes combine tunable porosity and surface chemistry, rendering them attractive for applications in sensing, membrane technology, and photonics. This study quantitatively investigates the thermal decomposition kinetics of organochlorinated xerogels and correlates with volatile compounds previously identified via Thermogravimetric Analysis (TGA) coupled to Fourier-Transform Infrared Spectroscopy (FT–IR) and Gas Chromatography coupled with Mass Spectrometry (GC–MS). The xerogels were synthesised via the sol–gel process using organochlorinated alkoxysilane precursors and yielded highly condensed nanostructures in which the precursor nature strongly influences the morphology and textural properties. In this study, the molar percentage of the organochlorinated compounds was fixed at 10%. Standard N2 adsorption-desorption isotherm…
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Taxonomy
TopicsAerogels and thermal insulation · Mesoporous Materials and Catalysis · Membrane Separation and Gas Transport
