Biotechnology to convert carbon dioxide into biogas, bioethanol, bioplastic and succinic acid using algae, bacteria and yeast: a review
S Akash, B Sivaprakash, N Rajamohan… - Environmental Chemistry …, 2023 - Springer
Global warming is partly due to excessive carbon dioxide emissions, calling for methods to
capture carbon dioxide for conversion into value-added materials and fuels. Here we review …
capture carbon dioxide for conversion into value-added materials and fuels. Here we review …
[引用][C] Biotechnology to convert carbon dioxide into biogas, bioethanol, bioplastic and succinic acid using algae, bacteria and yeast: a review
S Akash, B Sivaprakash… - Environmental …, 2023 - ui.adsabs.harvard.edu
Biotechnology to convert carbon dioxide into biogas, bioethanol, bioplastic and succinic acid
using algae, bacteria and yeast: a review - NASA/ADS Now on home page ads icon ads …
using algae, bacteria and yeast: a review - NASA/ADS Now on home page ads icon ads …
Biotechnology to convert carbon dioxide into biogas, bioethanol, bioplastic and succinic acid using algae, bacteria and yeast: a review
S Akash, B Sivaprakash… - Environmental …, 2023 - search.proquest.com
Global warming is partly due to excessive carbon dioxide emissions, calling for methods to
capture carbon dioxide for conversion into value-added materials and fuels. Here we review …
capture carbon dioxide for conversion into value-added materials and fuels. Here we review …
Biotechnology to convert carbon dioxide into biogas, bioethanol, bioplastic and succinic acid using algae, bacteria and yeast: a review.
S Akash, B Sivaprakash… - Environmental …, 2023 - search.ebscohost.com
Global warming is partly due to excessive carbon dioxide emissions, calling for methods to
capture carbon dioxide for conversion into value-added materials and fuels. Here we review …
capture carbon dioxide for conversion into value-added materials and fuels. Here we review …