Lignocellulosic biomass (LCB) is produced in large quantities throughout the world every
year and represents a major sink for photosynthetically fixed carbon. However, in some …

Discovering novel bacterial strains might be the link to unlocking the value in lignocellulosic
bio-refinery as we strive to find alternative and cleaner sources of energy. Bacteria display …

Current biorefinery approaches comprehend diverse biomass feedstocks and various
conversion techniques to produce a variety of high-value biochemicals and biofuels …

Lignocellulosic crop residue (LCCR) composting is a cost-effective and sustainable
approach for addressing environmental pollution associated with open biomass burning and …

Diminishing fossil fuel reserve and increasing cost of fossil hydrocarbon products have
rekindled worldwide effort on conversion of lignocellloloses (plant biomass) to renewable …

Lignocellulose from plant biomass represents an abundant and renewable source for the
production of environmentally friendly chemicals and biofuels. However, its recalcitrant …

Lignocellulose is the most abundant organic carbon polymer on the earth. Its decomposition
and conversion greatly impact the global carbon cycle. Furthermore, it provides feedstock for …

Lignocellulosic biomass (LCB) is globally available and sustainable feedstock containing
sugar-rich platform that can be converted to biofuels and specialty products through …

Lignocellulosic biomass is an abundant renewable feedstock for sustainable production of
commodities such as biofuels. The main technological barrier that prevents widespread …

Lignocellulosic materials (LCM) have garnered attention as feedstocks for second-
generation biofuels and platform chemicals. With an estimated annual production of nearly …