Phototrophic microorganisms that convert carbon dioxide are being explored for their
capacity to solve different environmental issues and produce bioactive compounds for …

The environmental problems caused by the use of fossil fuels have increased the worldwide
need for biomass use. Fungal technology provides a gentle, environmentally friendly, low …

Production of bio-oils was assessed by using two types of media; watermelon peel waste
(WPW) medium against synthetic medium as a comparative study. Accordingly, total of 25 …

The aim of this study was to investigate the effect of solid-state fermentation (SSF) by
Aspergillus niger on phenolic contents and antioxidant activity in Sambucus nigra L. and …

The role of operating temperature as a physical stress factor for enhancing lipid induction
during microalgae cultivation with domestic wastewater was evaluated. Experiments were …

The in situ (one-step) acid-catalyzed transesterification step for conversion to biodiesel of
biomass from oleaginous yeast Yarrowia lipolytica grown on waste cooking oil (WCO) is …

Production of biodiesel together with wastewater treatment and CO2 sequestration is a
promising technology. The growing levels of carbon dioxide in the atmosphere increase the …

In the present study, a co-culture of yeast (Lipomyces starkeyi) and bacterium (Bacillus
cereus) was used to optimize lipid accumulation capability and simultaneous treatment of …

Bioenergy represents a major type of renewable energy. Bioenergy is part of a larger
bioeconomy, including agriculture, forestry and manufacturing. Bioenergy typically …

Due to their low cost and ability to synthesize lipids for sustainable biodiesel production,
oleaginous fungus has recently gained more prominence than other microorganisms. The …