Add to ORKGPhotobiological hydrogen production has advanced significantly in recent years, and on the way to becoming a mature technology. A variety of photosynthetic and non-photosynthetic microorganisms, including unicellular green algae, cyanobacteria, anoxygenic photosynthetic bacteria, obligate anaerobic, and nitrogen-fixing bacteria are endowed with genes and proteins for H2-production. Enzymes, mechanisms, and the underlying biochemistry may vary among these systems; however, they are all promising catalysts in hydrogen production. Integration of hydrogen production among these organisms and enzymatic systems is a recent concept and a rather interesting development in the field, as it may minimize feedstock utilization and lower the associated ...
The improvement of H-2 production capabilities of hydrogen (H-2)-producing microorganisms is a chall...
Hydrogen produced by microorganisms, usually referred to as biohydrogen, offers a sustainable route ...
Photofermentative hydrogen production by purple non-sulfur bacteria is a potential candidate among b...
Photobiological hydrogen production has advanced significantly in recent years, and on the way to be...
Photobiological hydrogen production has advanced significantly in recent years, and on the way to be...
Microbiological photosynthesis is a promising tool for producing hydrogen in an ecologically friendl...
Hydrogen is considered one of the key enablers of the transition towards a sustainable and net-zero ...
Hydrogen production by phototrophic organisms, which has been known since the 1930's, occurs at...
Biological production of hydrogen can be carried out by photoautotrophic or photoheterotrophic organ...
Biological hydrogen evolution provides a sustainable and environmentally friendly way to produce cle...
Photobiological hydrogen production can be obtained by biological systems under sun irradiation. Cer...
Copyright © 2013 Galyna Kufryk. This is an open access article distributed under the Creative Common...
It is well known that over the last 60 years the trend of long-lived greenhouse gas emissions have s...
Microorganisms can produce hydrogen biologically, with species ranging from photosynthetic and ferme...
There are many biological paths to hydrogen production, each with potential advantages, but also wit...
The improvement of H-2 production capabilities of hydrogen (H-2)-producing microorganisms is a chall...
Hydrogen produced by microorganisms, usually referred to as biohydrogen, offers a sustainable route ...
Photofermentative hydrogen production by purple non-sulfur bacteria is a potential candidate among b...
Photobiological hydrogen production has advanced significantly in recent years, and on the way to be...
Photobiological hydrogen production has advanced significantly in recent years, and on the way to be...
Microbiological photosynthesis is a promising tool for producing hydrogen in an ecologically friendl...
Hydrogen is considered one of the key enablers of the transition towards a sustainable and net-zero ...
Hydrogen production by phototrophic organisms, which has been known since the 1930's, occurs at...
Biological production of hydrogen can be carried out by photoautotrophic or photoheterotrophic organ...
Biological hydrogen evolution provides a sustainable and environmentally friendly way to produce cle...
Photobiological hydrogen production can be obtained by biological systems under sun irradiation. Cer...
Copyright © 2013 Galyna Kufryk. This is an open access article distributed under the Creative Common...
It is well known that over the last 60 years the trend of long-lived greenhouse gas emissions have s...
Microorganisms can produce hydrogen biologically, with species ranging from photosynthetic and ferme...
There are many biological paths to hydrogen production, each with potential advantages, but also wit...
The improvement of H-2 production capabilities of hydrogen (H-2)-producing microorganisms is a chall...
Hydrogen produced by microorganisms, usually referred to as biohydrogen, offers a sustainable route ...
Photofermentative hydrogen production by purple non-sulfur bacteria is a potential candidate among b...