Review on Microreactors for Photo-Electrocatalysis Artificial Photosynthesis Regeneration of Coenzymes

In recent years, with the outbreak of the global energy crisis, renewable solar energy has become a focal point of research. However, the utilization efficiency of natural photosynthesis (NPS) is only about 1%. Inspired by NPS, artificial photosynthesis (APS) was developed and utilized in applicatio...

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Published inMicromachines (Basel) Vol. 15; no. 6; p. 789
Main Authors Liu, Haixia, Sun, Rui, Yang, Yujing, Zhang, Chuanhao, Zhao, Gaozhen, Zhang, Kaihuan, Liang, Lijuan, Huang, Xiaowen
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 15.06.2024
MDPI
Subjects
Agricultural production
Alternative energy sources
artificial photosynthesis
By products
Carbon dioxide
Catalysis
Chemical reactions
China
Coenzymes
Comparative analysis
Diffusion rate
Efficiency
Electrocatalysis
Energy consumption
Energy shortages
Enzymes
Force and energy
Fossil fuels
Industrial development
Integrated circuit fabrication
Light
Metabolism
microreactor
Microreactors
Natural resources
Netherlands
Pharmaceutical industry
photo-electrocatalysis
Photocatalysis
Photosynthesis
Regeneration
regeneration of coenzymes
Renewable resources
Review
Simulation
Solar energy
Netherlands
China
artificial photosynthesis
photo-electrocatalysis
microreactor
regeneration of coenzymes
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Abstract In recent years, with the outbreak of the global energy crisis, renewable solar energy has become a focal point of research. However, the utilization efficiency of natural photosynthesis (NPS) is only about 1%. Inspired by NPS, artificial photosynthesis (APS) was developed and utilized in applications such as the regeneration of coenzymes. APS for coenzyme regeneration can overcome the problem of high energy consumption in comparison to electrocatalytic methods. Microreactors represent a promising technology. Compared with the conventional system, it has the advantages of a large specific surface area, the fast diffusion of small molecules, and high efficiency. Introducing microreactors can lead to more efficient, economical, and environmentally friendly coenzyme regeneration in artificial photosynthesis. This review begins with a brief introduction of APS and microreactors, and then summarizes research on traditional electrocatalytic coenzyme regeneration, as well as photocatalytic and photo-electrocatalysis coenzyme regeneration by APS, all based on microreactors, and compares them with the corresponding conventional system. Finally, it looks forward to the promising prospects of this technology.
AbstractList In recent years, with the outbreak of the global energy crisis, renewable solar energy has become a focal point of research. However, the utilization efficiency of natural photosynthesis (NPS) is only about 1%. Inspired by NPS, artificial photosynthesis (APS) was developed and utilized in applications such as the regeneration of coenzymes. APS for coenzyme regeneration can overcome the problem of high energy consumption in comparison to electrocatalytic methods. Microreactors represent a promising technology. Compared with the conventional system, it has the advantages of a large specific surface area, the fast diffusion of small molecules, and high efficiency. Introducing microreactors can lead to more efficient, economical, and environmentally friendly coenzyme regeneration in artificial photosynthesis. This review begins with a brief introduction of APS and microreactors, and then summarizes research on traditional electrocatalytic coenzyme regeneration, as well as photocatalytic and photo-electrocatalysis coenzyme regeneration by APS, all based on microreactors, and compares them with the corresponding conventional system. Finally, it looks forward to the promising prospects of this technology.
In recent years, with the outbreak of the global energy crisis, renewable solar energy has become a focal point of research. However, the utilization efficiency of natural photosynthesis (NPS) is only about 1%. Inspired by NPS, artificial photosynthesis (APS) was developed and utilized in applications such as the regeneration of coenzymes. APS for coenzyme regeneration can overcome the problem of high energy consumption in comparison to electrocatalytic methods. Microreactors represent a promising technology. Compared with the conventional system, it has the advantages of a large specific surface area, the fast diffusion of small molecules, and high efficiency. Introducing microreactors can lead to more efficient, economical, and environmentally friendly coenzyme regeneration in artificial photosynthesis. This review begins with a brief introduction of APS and microreactors, and then summarizes research on traditional electrocatalytic coenzyme regeneration, as well as photocatalytic and photo-electrocatalysis coenzyme regeneration by APS, all based on microreactors, and compares them with the corresponding conventional system. Finally, it looks forward to the promising prospects of this technology.In recent years, with the outbreak of the global energy crisis, renewable solar energy has become a focal point of research. However, the utilization efficiency of natural photosynthesis (NPS) is only about 1%. Inspired by NPS, artificial photosynthesis (APS) was developed and utilized in applications such as the regeneration of coenzymes. APS for coenzyme regeneration can overcome the problem of high energy consumption in comparison to electrocatalytic methods. Microreactors represent a promising technology. Compared with the conventional system, it has the advantages of a large specific surface area, the fast diffusion of small molecules, and high efficiency. Introducing microreactors can lead to more efficient, economical, and environmentally friendly coenzyme regeneration in artificial photosynthesis. This review begins with a brief introduction of APS and microreactors, and then summarizes research on traditional electrocatalytic coenzyme regeneration, as well as photocatalytic and photo-electrocatalysis coenzyme regeneration by APS, all based on microreactors, and compares them with the corresponding conventional system. Finally, it looks forward to the promising prospects of this technology.
Audience Academic
Author Liang, Lijuan
Zhang, Kaihuan
Zhao, Gaozhen
Liu, Haixia
Yang, Yujing
Zhang, Chuanhao
Huang, Xiaowen
Sun, Rui
AuthorAffiliation 4 State Key Laboratory of Transducer Technology, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China
2 Jiaxing Key Laboratory of Biosemiconductors, Xiangfu Laboratory, Jiashan 314102, China; rsunsinap@163.com
1 Department of Bioengineering, Qilu University of Technology (Shandong Academy of Sciences), Jinan 250300, China; 10431211092@stu.qlu.edu.cn (H.L.); 10431211246@stu.qlu.edu.cn (Y.Y.); zhangchuanhao66@126.com (C.Z.); zhaogaozhen2021@126.com (G.Z.)
5 Center of Materials Science and Optoelectronics Engineering, University of Chinese Academy of Sciences, Beijing 100049, China
3 2020 X-Lab, Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences, Shanghai 200050, China; kzhang@mail.sim.ac.cn
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Keywords artificial photosynthesis
photo-electrocatalysis
microreactor
regeneration of coenzymes
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Snippet In recent years, with the outbreak of the global energy crisis, renewable solar energy has become a focal point of research. However, the utilization...
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SubjectTerms Agricultural production
Alternative energy sources
artificial photosynthesis
By products
Carbon dioxide
Catalysis
Chemical reactions
China
Coenzymes
Comparative analysis
Diffusion rate
Efficiency
Electrocatalysis
Energy consumption
Energy shortages
Enzymes
Force and energy
Fossil fuels
Industrial development
Integrated circuit fabrication
Light
Metabolism
microreactor
Microreactors
Natural resources
Netherlands
Pharmaceutical industry
photo-electrocatalysis
Photocatalysis
Photosynthesis
Regeneration
regeneration of coenzymes
Renewable resources
Review
Simulation
Solar energy
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Title Review on Microreactors for Photo-Electrocatalysis Artificial Photosynthesis Regeneration of Coenzymes
URI https://www.ncbi.nlm.nih.gov/pubmed/38930759
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Volume 15
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