2023
DOI: 10.1016/j.biortech.2022.128457
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Multiomics and optobiotechnological approaches for the development of microalgal strain for production of aviation biofuel and biorefinery

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Cited by 15 publications
(2 citation statements)
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“…To do so, the proliferation of biorefineries is needed due to their potential for converting waste biomass into value-added products and their capability to reduce waste, increase resource efficiency, and create new revenue streams [3]. Even though biorefineries still face some problems that are being studied to be solved [4,5], there are many technological advances that allow the development of biofuels or value-added products based on a large variety of sources such as microalgal [6,7] and seaweed [8], lignin [9], rice straw waste [10] or food waste [11], among others.…”
Section: Discussionmentioning
confidence: 99%
“…To do so, the proliferation of biorefineries is needed due to their potential for converting waste biomass into value-added products and their capability to reduce waste, increase resource efficiency, and create new revenue streams [3]. Even though biorefineries still face some problems that are being studied to be solved [4,5], there are many technological advances that allow the development of biofuels or value-added products based on a large variety of sources such as microalgal [6,7] and seaweed [8], lignin [9], rice straw waste [10] or food waste [11], among others.…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, adopting a biorefinery approach would be required to make microalgal biofuels a reality in the future, irrespective of the microalgal strain selected for biofuel production. Microalgal genetic engineering technologies such as proteomics, metabolomics, CRISPR editing, riboswitching, and optoswitching techniques could offer enhanced microalgal biomass quality and yield with integrated biorefining options [191].…”
Section: Recent Advances Challenges and Future Directions For Microal...mentioning
confidence: 99%