Produkt
KlappentextPhotosynthesis-Assisted Energy Generation
Describes the mechanisms of and potential for using microorganisms and plants as renewable power resources
Bridging the knowledge gap between the fundamentals and the technological advances in biological photosynthesis-assisted energy generation, Photosynthesis-Assisted Energy Generation explores the various diverse light-harvesting biological systems for electricity generation and explains the fundamentals and applications from lab-scale to in-field. The text discusses the fundamentals of electron transfer mechanisms in photosynthetic systems, basic principles of bioelectricity generation, and materials involved in the construction of fuel cells, including not only the impact of higher plants, but also anoxygenic and oxygenic photosynthetic bacteria and microalgae on the performance of photosynthesis-assisted power generation systems.
A timely resource, the text features case studies on emerging topics such as mosses in power generation on green roofs and photo-bioelectrochemical fuel cells for antibiotics and dyes removal, along with discussion of sustainability issues when scaling up bio-photo-electrochemical systems.
Edited by two highly qualified and accomplished academics with significant research experience in the field, Photosynthesis-Assisted Energy Generation includes information on: Role of functional materials involved in photosynthesis-assisted power generation and non-noble electrocatalysts as air cathodes in biocells
Electricity generation and intensified synthesis of nutrients by plant-based biofuel cells using duckweeds as biocatalysts
Algae-based microbial fuel cells, photosynthetic bacteria-based microbial fuel cells, and bryophyte microbial fuel cell systems
Progress and recent trends of application of low-energy consuming devices and IoT based on photosynthesis-assisted power generation
Plant-based microbial fuel cells for bioremediation, biosensing, and plant health monitoring
With full coverage of an attractive renewable energy generation system, Photosynthesis-Assisted Energy Generation is an essential resource on the subject for researchers and scientists interested in alternative renewable energetics and photosynthesis-assisted energy generation processes utilizing microorganisms, algae, plants, and other bioinspired materials.
Dr. Sathish-Kumar Kamaraj is a Full Professor of C ES TC FOR at the Instituto Politécnico Nacional (IPN)-Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada, Unidad Altamira (CICATA-Altamira), Altamira, Tamps., in Mexico. He has developed various working prototypes of bioelectro-chemical systems.
Dr. Iryna Rusyn is a Doctor of Biological Sciences in Biotechnology, Associate Professor, and Head of Scientific Research Electrobiosystems for obtaining Plant-microbial bioelectricity at Lviv Polytechnic National University, Department of Ecology and Sustainable Environmental Management in Ukraine.
Describes the mechanisms of and potential for using microorganisms and plants as renewable power resources
Bridging the knowledge gap between the fundamentals and the technological advances in biological photosynthesis-assisted energy generation, Photosynthesis-Assisted Energy Generation explores the various diverse light-harvesting biological systems for electricity generation and explains the fundamentals and applications from lab-scale to in-field. The text discusses the fundamentals of electron transfer mechanisms in photosynthetic systems, basic principles of bioelectricity generation, and materials involved in the construction of fuel cells, including not only the impact of higher plants, but also anoxygenic and oxygenic photosynthetic bacteria and microalgae on the performance of photosynthesis-assisted power generation systems.
A timely resource, the text features case studies on emerging topics such as mosses in power generation on green roofs and photo-bioelectrochemical fuel cells for antibiotics and dyes removal, along with discussion of sustainability issues when scaling up bio-photo-electrochemical systems.
Edited by two highly qualified and accomplished academics with significant research experience in the field, Photosynthesis-Assisted Energy Generation includes information on: Role of functional materials involved in photosynthesis-assisted power generation and non-noble electrocatalysts as air cathodes in biocells
Electricity generation and intensified synthesis of nutrients by plant-based biofuel cells using duckweeds as biocatalysts
Algae-based microbial fuel cells, photosynthetic bacteria-based microbial fuel cells, and bryophyte microbial fuel cell systems
Progress and recent trends of application of low-energy consuming devices and IoT based on photosynthesis-assisted power generation
Plant-based microbial fuel cells for bioremediation, biosensing, and plant health monitoring
With full coverage of an attractive renewable energy generation system, Photosynthesis-Assisted Energy Generation is an essential resource on the subject for researchers and scientists interested in alternative renewable energetics and photosynthesis-assisted energy generation processes utilizing microorganisms, algae, plants, and other bioinspired materials.
Dr. Sathish-Kumar Kamaraj is a Full Professor of C ES TC FOR at the Instituto Politécnico Nacional (IPN)-Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada, Unidad Altamira (CICATA-Altamira), Altamira, Tamps., in Mexico. He has developed various working prototypes of bioelectro-chemical systems.
Dr. Iryna Rusyn is a Doctor of Biological Sciences in Biotechnology, Associate Professor, and Head of Scientific Research Electrobiosystems for obtaining Plant-microbial bioelectricity at Lviv Polytechnic National University, Department of Ecology and Sustainable Environmental Management in Ukraine.
Details
Weitere ISBN/GTIN9781394172313
ProduktartE-Book
EinbandartE-Book
FormatPDF
Format Hinweis2 - DRM Adobe / Adobe Ebook Reader
FormatFormat mit automatischem Seitenumbruch (reflowable)
Verlag
Erscheinungsjahr2024
Erscheinungsdatum06.02.2024
Auflage1. Auflage
Seiten416 Seiten
SpracheEnglisch
Dateigrösse7717 Kbytes
Artikel-Nr.13573930
Rubriken
Genre9201