Nanostructured SiO2 material: synthesis advances and applications in rubber reinforcement

Silica is a commercially significant material due to its extensive use in widespread applications and products. Synthetic amorphous silica (SAS) is a form of SiO2 that is intentionally manufactured and has been produced and marketed for decades without significant changes in its physico-chemical properties. The industrial production of nanostructured SiO2 is nowadays challenged by the expensive raw material use and high energy consumption. The search for non-petroleum-based fillers such as nanostructured SiO2, which are environmentally friendly, cheap, abundant, renewable, and efficient, has been initiated nowadays. Therefore, a large number of research activities have been carried out so far for the preparation of SAS from potential alternate precursors, i.e., synthetic chemicals, biogenic, and mineral ore resources. Reinforcement of rubbers with nanostructured SiO2 fillers is a process of great practical and technological importance for improving their mechanical, dynamic, and thermal properties. The efficiencies of SiO2 reinforcement correlate with different factors such as filler structure, surface area, rubber-filler interactions, and filler-filler interactions with their effects. This review paper discusses the recent synthesis advances of nanostructured SiO2 from synthetic chemicals, biogenic and mineral ore resources, their physical characteristics, and applications in rubber reinforcement, overcoming challenges. Finally, summary and future work recommendations have been mentioned well for future researchers.

Automated summary

Silica is a commercially significant material widely used in various applications and products. The synthesis of nanostructured SiO2, as a rubber reinforcement, has practical and technological importance, but faces challenges due to high cost and energy consumption. Researchers are seeking environmentally friendly, cheap, abundant, renewable, and efficient alternatives. This review paper discusses recent advances in the synthesis of nanostructured SiO2, its physical characteristics, and applications in rubber reinforcement, providing recommendations for future research.