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Biofuel Cells and Energy Generation

  • 1st Edition - February 19, 2025
  • Latest edition
  • Editors: Kishor Kumar Sadasivuni, Mithra Geetha
  • Language: English

Biofuel Cells and Energy Generation analyzes the current state-of-the-art and offers solutions to key challenges in developing carbohydrate-based biofuel cell technology. The book… Read more

Description

Biofuel Cells and Energy Generation analyzes the current state-of-the-art and offers solutions to key challenges in developing carbohydrate-based biofuel cell technology. The book provides a critical review of biofuel cell technology, including principles, components, applications, obstacles, and prospects, and assesses the economic, safety, health, and environmental implications. Sections focus on the diversity of biomass resources, the fundamental characteristics of biomass, the major effects of biomass composition variations on biofuel cell technology, and a thorough review of the research literature on approaches for decreasing the detrimental impacts of biomass variability on fuel cells.

In addition, a comprehensive examination of biofuel cell technology's current state and applications is presented that is supported by an explanation of the fundamentals, concepts, mechanisms, characteristics, optimal parameters, analytical characterization techniques, diverse types, all-category materials, catalysts, engineering designs, implantable biofuel cells, applications, and critical criteria. A variety of applications are addressed, including power implanted devices in biomedical applications, biosensors for smart communities, and nanomaterials for biofuel cells, among others. For each application, unresolved issues are identified, and solutions proposed.

Key features

  • Critically evaluates a range of biofuel cell applications from energy generation biomedical applications
  • Presents solutions to the current challenges in biofuel cell research, notably how to improve current and power density output, cell design, and long-life operation
  • Provides an economic performance assessment, as well as health, safety, and environmental assessments
  • Explores the use of a diverse range of carbohydrate-based biomass resources
  • Discusses recent advances and unique biofuel cell nanomaterial techniques, as well as various immobilization methods for incorporating the nanomaterial matrix and performance analysis methodologies
  • Examines unresolved concerns surrounding industrial scale-up of biofuel cell technology, as well as new hurdles in the sector

Readership

Graduate students, postgraduates, and researchers involved in renewable energy generation and working in the fields of electrochemistry, microbiology, biochemistry, nanomaterials, and chemical, medical, and electrical engineering, Engineers and industry professionals involved in biofuel cell technology

Table of contents

1. Biofuel Cells: A Novel Innovation -Introduction

2. Fundamentals, materials, and challenges of biofuel cells

3 Biomass feedstock variability and the potential impact on biofuel cell development

4. Optimizing biofuel cell technology through genetic engineering

5. Bio electrocatalysis for Biofuel Cells-an overview of technology

6. Miniature biofuel cells and its state of the art

7. Advances in Glucose Biofuel Cell Research and Prospects

8. Fabrication and applications of enzymatic biofuel cells

9. Overview of microbial fuel cell

10. Nanomaterials for Biofuel Cells

11. Hybrid biofuel cells

12. Applications of Biofuel Cells

13. Implantable Biofuel Cells for Biomedical Applications

14. Biofuel cells and self-powered biosensors for smart communities

15. Biofuel cell technology economic performance assessment and consideration of co-products

16. Biofuel cell technology safety, health, and environmental assessment

Product details

  • Edition: 1
  • Latest edition
  • Published: March 18, 2025
  • Language: English

About the editors

KS

Kishor Kumar Sadasivuni

Dr. Kishor Kumar Sadasivuni is an Assistant Professor at the Center for Advanced Materials, Qatar University, Doha, Qatar, with expertise in polymer composite materials and high-performance polymer nanocomposites for industrial applications. Since 2009, he has promoted interdisciplinary collaborations in nanocomposites and industrial technologies. His research includes sensor technology, piezoelectrics, energy storage, and flexible electronics. His prolific academic output encompasses numerous journal articles, book chapters, and edited volumes, with his publications amassing more than 17,000 citations.

Affiliations and expertise
Assistant Professor, Center of Advanced Materials, Qatar University, Doha, Qatar

MG

Mithra Geetha

Dr. Geetha Mithra has been a researcher at Qatar University's Center for Advanced Materials since 2019. Prior to this, she worked as a researcher at the ICAR-Central Tuber Crops Research Institute in India and served as a lecturer in biotechnology and biochemistry. Her research portfolio includes projects such as developing non-invasive wearable sensors for diagnosing metabolic disorders, biofuel cells, and CO2 conversion systems. Her work integrates artificial intelligence and nanotechnology, contributing to innovations in cancer theragnostics, advanced nutrient monitoring, and smart chemosensors.

Affiliations and expertise
Researcher, Center for Advanced Materials, Qatar University, Doha, Qatar

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