Pretreatment process is the key technological step in lignocellulose bioconversion into
biofuel owing to its robust molecular structure. This pivotal process can markedly affect the …

Sugarcane bagasse is a rich source of cellulose (32–45%), hemicellulose (20–32%) and
lignin (17–32%), 1.0–9.0% ash and some extractives. Huge amount of the generation of …

The development of advanced biofuels from waste organic matter, such as lignocellulosic
biomass, is critical for global sustainable waste management and to delay climate change …

Sugarcane bagasse is a large‐volume agriculture residue that is generated on a~ 540
million metric tons per year basis globally1, 2 with the top‐three producing countries in Latin …

Two major residues are produced by the sugarcane industry, the fibrous fraction following
juice extraction (bagasse), and the harvest residue (straw). The structures of the lignins from …

Presently, the use of lignocellulosic biomass is mainly focused on creating pulp/paper,
energy, sugars and bioethanol from the holocellulose component, leaving behind lignin to …

Sugarcane bagasse (SCB) is one of the world's most abundant agricultural residues and in
an Indian context,∼ 100 million tonnes per annum is produced. The current use of SCB is …

The increased dependence on fossil fuels has led to its shortage. Adding to this, awareness
around the world has risen about the ill effects of fossil fuels and thus there has been an …

The realm of industrial enzymes from microorganisms in energy, food, brewery, feed, textile,
paper, and agriculture sectors is experiencing an upthrust ($4.4 billion market by 2015) due …

Organosolv fractionation is a promising process to separate lignocellulosic biomass for the
preparation of multiply products including biofuels, chemicals, and materials. This review …