Sustainable synthesis of multifunctional nanomaterials from rice wastes: a comprehensive review.

Chakroborty, Subhendu; Pal, Kaushik; Nath, Nibedita; Singh, Varun; Barik, Arundhati; Soren, Siba; Panda, Pravati; Asthana, Nidhi; Kyzas, George Z.

More than 60% of India's population relies on agriculture as their primary source of income, making it the nation's most important economic sector. Rice husk (often abbreviated as RH) is one of the most typical by-products of agricultural production. Every five tonnes of rice that is harvested results in the production of one tonne of husk. The concept of recycling and reusing waste from agricultural production has received interest from a variety of environmental and industrial perspectives. A wide variety of nanomaterials, including nano-zeolite, nanocarbon, and nano-silica, have been discovered in agro-waste. From rice cultivation to the finished product, there was a by-product consisting of husk that comprised 20% of the overall weight, or RH. The percentage of silica in RH ash ranges from 60 to 40%, with the remaining percentage consisting of various minerals. As a direct consequence of this, several distinct approaches to generating and extracting nanomaterial from rice husk have been developed. Because it contains a significant amount of cellulose and lignin, RH is an excellent and economical source of carbon precursor. The goal of this chapter is to produce carbon-based nanomaterials from RH.

INDIA; RICE hulls; AGRICULTURAL wastes; RICE; AGRICULTURAL productivity; NANOSTRUCTURED materials; RICE bran; LIGNINS

Environmental Science & Pollution Research, 2023, Vol 30, Issue 42, p95039

0944-1344

Academic Journal

10.1007/s11356-023-29235-9