Sustainable circular biorefinery approach for novel building blocks and bioenergy production from algae using microbial fuel cell

Abstract: The imminent need for transition to a circular biorefinery using microbial fuel cells (MFC), based on the valorization of renewable resources, will ameliorate the carbon footprint induced by industrialization. MFC catalyzed by bioelectrochemical process drew significant attention initially for its exceptional potential for integrated production of biochemicals and bioenergy. Nonetheless, the associated costly bioproduct production and slow microbial kinetics have constrained its commercialization. This review … Show more

“…In the light of current environmental challenges, such as climate change and the depletion of fossil fuel reservoirs, a global transition to biodegradable and renewable products is highly demanded. Recently, the degradation of macroalgae biomass, as a renewable source of energy, has become attractive, and efforts are underway to develop valorization technologies [78,79]. Consequently, high-value bioactive compounds can be extracted from macroalgae biomass, finding utility as feed and food additives [80,81].…”

Molecular Cloning and Biochemical Characterisation of a Novel Acidic Laminarinase Derived from Jermuk Hot Spring Metagenome

“…In the light of current environmental challenges, such as climate change and the depletion of fossil fuel reservoirs, a global transition to biodegradable and renewable products is highly demanded. Recently, the degradation of macroalgae biomass, as a renewable source of energy, has become attractive, and efforts are underway to develop valorization technologies [78,79]. Consequently, high-value bioactive compounds can be extracted from macroalgae biomass, finding utility as feed and food additives [80,81].…”

Molecular Cloning and Biochemical Characterisation of a Novel Acidic Laminarinase Derived from Jermuk Hot Spring Metagenome

Bio-electrolysis of petroleum wastewater using microbial fuel cell for energy production

Enhancing bioelectricity generation in seaweed-derived microbial fuel cells using modified anodes with Fe2O3@AuNPs/PANI nanocomposites