Exploring Eco-Friendly Green Synthesis of Calcium Silicate and its Derivatives for Diverse Applications

Abstract

Calcium oxide and silicon oxide are combined to form calcium silicate. Since calcium silicate materials offer tuneable physical, chemical, mechanical, and optical characteristics, these materials have found uses in various applications such as luminescence, batteries, bioimaging, supercapacitors, and concrete materials. In the majority of applications, high-purity calcium silicate is produced from chemical precursors such as calcium/silicate oxides or nitrites, even though this method could be expensive, environmentally harmful, and non-biocompatible. As an alternative, natural calcium and silica from biomass are usually economical and abundant, yet they contain impurities but sometimes the trace impurities influence the properties of material in positive ways. Silica can be extracted from wheat husk, rice husk, and sugarcane bagasse, which are frequently dumped in rivers, ponds, and other water bodies, contributing to ecological and health problems, likewise, calcium oxide can be extracted from eggshells, marble waste, snail shell. The trash may recycle or utilized to create marketable, value-added items with significant ecological and financial benefits rather than being dumped. The purpose of this review paper is to discuss the composition, processing, and applications of calcium silicate derivatives. The analysis shows that calcium silicate derivatives have enormous potential for using waste as a replacement of organic precursor materials.