光合作用
人工光合作用
可再生能源
生物能源
生物制氢
生物量(生态学)
生物燃料
环境科学
生化工程
光合效率
废物管理
化学
生态学
工程类
制氢
植物
生物
催化作用
有机化学
光催化
氢
生物化学
作者
Youping Xie,Kuan Shiong Khoo,Kit Wayne Chew,Vishno Vardhan Devadas,Sue Jiun Phang,Hooi Ren Lim,Saravanan Rajendran,Pau Loke Show
标识
DOI:10.1016/j.biortech.2022.127830
摘要
There has been an urgent need to tackle global climate change and replace conventional fuels with alternatives from sustainable sources. This has led to the emergence of bioenergy sources like biofuels and biohydrogen extracted from microalgae biomass. Microalgae takes up carbon dioxide and absorbs sunlight, as part of its photosynthesis process, for growth and producing useful compounds for renewable energy. While, the developments in artificial photosynthesis to a chemical process that biomimics the natural photosynthesis process to fix CO2 in the air. However, the artificial photosynthesis technology is still being investigated for its implementation in large scale production. Microalgae photosynthesis can provide the same advantages as artificial photosynthesis, along with the prospect of having final microalgae products suitable for various application. There are significant potential to adapt either microalgae photosynthesis or artificial photosynthesis to reduce the CO2 in the climate and contribute to a cleaner and green cultivation method.
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