The natural interactions between various bacteria, fungi, and other cellulolytic
microorganisms destroy lignocellulosic polymers. The efficacy of this process is determined …

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

Lignocellulose is the most abundant biopolymer available on earth. Hydrolysis of
lignocellulose into fermentable sugars, sugar acids and phenolics is the pre-requisite for its …

In cellulose-to-ethanol processes a physico-chemical pretreatment of the lignocellulosic
feedstock is a crucial prerequisite for increasing the amenability of the cellulose to enzymatic …

The highly acclaimed prospect of renewable lignocellulosic biocommodities as obvious
replacement of their fossil-based counterparts is burgeoning within the last few years …

Optimizing production of cellulose degrading enzymes is of great interest in order to
increase the feasibility of constructing biorefinery facilities for a sustainable supply of energy …

In this study, the biodegradability of cellulose films was evaluated in controlled-moisture soil
environments. The films were prepared from low-quality cotton fibers through dissolution in …

The current study was designed to isolate and identify superior cellulose-degrading fungi
from Egyptian soils reached with cellulosic compounds, then production of bioethanol from …

Cellulases are used in various industries, acting efficiently and sustainably in the
degradation of cellulose contained in different raw materials and recovering high value …

A lignocellulosic decomposing fungus Z5 was isolated and identified as Aspergillus
fumigatus, its capacity to produce cellulase was assessed under solid-state fermentation …