Neda Fakhimi scite author profile

Biological hydrogen production by microalgae is a potential sustainable, renewable and clean source of energy. However, many barriers limiting photohydrogen production in these microorganisms remain unsolved. In order to explore this potential and make biohydrogen industrially affordable, the unicellular microalga Chlamydomonas reinhardtii is used as a model system to solve barriers and identify new approaches that can improve hydrogen production. Recently, Chlamydomonas–bacteria consortia have opened a new window to improve biohydrogen production. In this study, we review the different consortia that have been successfully employed and analyze the factors that could be behind the improved H2 production.

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Acetic acid is key for synergetic hydrogen production in Chlamydomonas-bacteria co-cultures

Fakhimi

Dubini

Tavakoli

et al. 2019

Bioresource Technology

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Acetic acid uptake rate controls H2 production in Chlamydomonas-bacteria co-cultures

et al. 2019

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Neda Fakhimi

Algae-Bacteria Consortia as a Strategy to Enhance H2 Production

Acetic acid is key for synergetic hydrogen production in Chlamydomonas-bacteria co-cultures

Acetic acid uptake rate controls H2 production in Chlamydomonas-bacteria co-cultures

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