Production of nanocellulose from miscanthus biomass

Abstract

Nanocellulose materials are distinguished by their safety, biodegradability, and adaptability. It was shown that bacterial nanocellulose does not contain lignin and hemicellulose and has an ultrafine network structure. The wide compatibility of such materials with biological molecules and the ability to change their structure makes nanocellulose a promising material for medical applications. Today, in the production of nanocellulose, mainly softwood is used. Despite the obvious advantages of nanocellulose, the limiting factor in production is the high cost of wood raw materials and the environmental damage caused by deforestation. Therefore, there is increasing interest in cheap and annually renewable herbaceous plant biomass, which is a potential raw material with a negative cost for the synthesis of nanocellulose. This review aimed to evaluate the viability of using Miscanthus plant genus as the primary source of nanocellulose. The characteristics of various types of nanocellulose and methods for their preparation from miscanthus are discussed. Miscanthus plants are disease resistant, frost resistant, and grow rapidly. The biomass growth of this plant reaches 35 tons per hectare, and the life span of miscanthus reaches 20 years. Miscanthus is a promising source of nanocellulose crystals because it is rich cellulose. The development of effective methods for obtaining nanocellulose will allow the introduction of a new class of materials for the production of biotechnical composite liquid and solid compositions, as well as raw materials for the food, medical, and pharmaceutical industries.