The inherent recalcitrance of lignocellulosic biomass is a significant barrier to efficient
lignocellulosic biorefinery owing to its complex structure and the presence of inhibitory …

Microalgae contribute significantly to the global carbon cycle through photosynthesis. Given
their ability to efficiently convert solar energy and atmospheric carbon dioxide into chemical …

The consumption of fossil fuel sources and in particular, the emerging lethal issues
connected with global warming triggered by consumption of petroleum products have set off …

The rise in energy consumption would quadruple in the coming century and the, existing
energy resources might be insufficient to meet the demand of the growing population. An …

Practically, high-yield conversion of biomass into value-added products at low cost is a
primary goal for any lignocellulosic refinery. In the industrial context, the limitation in the …

Biofuels from microalgal biomass is among some of the promising sustainable energy
technologies that can significantly replace the dependence on fossil fuels worldwide due to …

The conversion of multi-bioconstituents of microalgal biomass such as carbohydrates and
proteins to lipids can substantially reduce the downstream and overall process cost, as the …

A method is developed for simultaneous extraction of lipids, hydrocarbons and carotenoids
from primary algal biomass without the need for cell sacrifice. Enzymatically predigested …

Oleaginous yeast-derived biodiesel production utilizing zero-value organic waste
biomasses has been prioritized to curb environmental pollution, global warming, and rising …

Ever rising human population leads to increased demand for fresh water, energy and food,
which in turn results in upsurge of wastewater at both industrial and domestic level. These …