Biohydrogen is perceived as the versatile fuel of the future, having the ability to replace fossil
fuels in many industrial and commercial sectors and offering the promise of fulfilling future …

Microalgae, as facultative aerobic organisms, convert solar energy to produce biohydrogen
under anaerobic condition. Biohydrogen is a kind of ideal clean and renewable energy …

Microalgae have received much attention in recent years as a feedstock for producing
renewable fuels. Microalgae cultivation technology is one of the main factors restricting …

Background Photobiological H 2 production has the potential of becoming a carbon-free
renewable energy source, because upon the combustion of H 2, only water is produced. The …

In the context of algal wastewater bioremediation, this study has identified a novel
consortium formed by the bacterium Methylobacterium oryzae and the microalga …

This study is a proof of concept for the synergetic biohydrogen production in alga-bacteria co-
cultures. Algal hydrogen photoproduction was obtained in sugar-containing media only …

Hydrogen production by microalgae is a promising technology to achieve sustainable and
clean energy. Among various photosynthetic microalgae able to produce hydrogen …

The unicellular green alga Chlamydomonas reinhardtii is capable of photosynthetic H2
production. H2 evolution occurs under anaerobic conditions and is difficult to sustain due to …

Biological hydrogen production by microalgae is a potential sustainable, renewable and
clean source of energy. However, many barriers limiting photohydrogen production in these …

The extensive metabolic diversity of microalgae, coupled with their rapid growth rates and
cost-effective production, position these organisms as highly promising resources for a wide …