Rice husk integrated biochemical refinery for the production of nano- and bioproducts

“…The disposal or recycling of rice waste has an impact on the economy and environment because it is not fully commercial for product-making. The chemical composition of rice husk consists of silica (17%-20%), cellulose (26%-40%), and lignin (15%-25%) [18]. Shiva et al [19] employed thermal and chemical methods to extract silica from rice husk for rubber formulations, whereas Morimoto et al [20] discussed the useful applications of rice husk including, cement/concrete, adsorbents, soil conditioners, fertilizers, fibre-reinforced polymer composites, and metal matrix.…”

Comparative study on tensile and morphological properties of resin and rice husk reinforced polymer composite gyroid lattice structures

“…The disposal or recycling of rice waste has an impact on the economy and environment because it is not fully commercial for product-making. The chemical composition of rice husk consists of silica (17%-20%), cellulose (26%-40%), and lignin (15%-25%) [18]. Shiva et al [19] employed thermal and chemical methods to extract silica from rice husk for rubber formulations, whereas Morimoto et al [20] discussed the useful applications of rice husk including, cement/concrete, adsorbents, soil conditioners, fertilizers, fibre-reinforced polymer composites, and metal matrix.…”

Comparative study on tensile and morphological properties of resin and rice husk reinforced polymer composite gyroid lattice structures

Biomass-derived SiOx/C nanocomposite anode synthesis by induction heating for lithium ion battery

Hydrothermal Processing of Lignocellulosic Biomass: an Overview of Subcritical and Supercritical Water Hydrolysis