iScience
 2023
DOI: 10.1016/j.isci.2023.107255
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Genetic engineering for biohydrogen production from microalgae

Jiaqi Zhang1,
Dongsheng Xue2,
Chongju Wang3
et al.
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Cited by 9 publications
(2 citation statements)
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“…, E. coli , yeast, and microalgae) act as tireless machines to manufacture bulky chemicals, 186–188 medical intermediates, 189,190 and sustainable energy. 191 Genetically modified T cells ( e.g. , chimeric antigen receptor-T cells) offer more personalized therapy for patients.…”
Section: Genetic Strategies For Synthesizing Biomaterials In Living O...mentioning
confidence: 99%

Synthesizing biomaterials in living organisms

Zhang,
Wang,
Zhang
et al. 2023
Chem. Soc. Rev.
15
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3
0
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“…, E. coli , yeast, and microalgae) act as tireless machines to manufacture bulky chemicals, 186–188 medical intermediates, 189,190 and sustainable energy. 191 Genetically modified T cells ( e.g. , chimeric antigen receptor-T cells) offer more personalized therapy for patients.…”
Section: Genetic Strategies For Synthesizing Biomaterials In Living O...mentioning
confidence: 99%

Synthesizing biomaterials in living organisms

Zhang,
Wang,
Zhang
et al. 2023
Chem. Soc. Rev.
15
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3
0
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“…The main disadvantages of these methods of hydrogen production in terms of environmental impact are the formation of large volumes of carbon dioxide during steam reforming and the need for large amounts of electricity and water during electrolysis. The low concentration of hydrogen produced by thermochemical methods and the need for high-temperature complex operating conditions increase production costs and energy consumption, making them unsustainable [12][13][14].…”
Section: Introductionmentioning
confidence: 99%

Production of Biohydrogen from Microalgae Biomass after Wastewater Treatment and Air Purification from CO2

Velmozhina,
Shinkevich,
Zhazhkov
et al. 2023
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Techno-Economic Analysis and Life Cycle Assessment of Biofuels Production in a Cellulosic Biorefinery

Rakshit,
Chakraborty
2024
Handbook of Biorefinery Research and Technology
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