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Biomass based energy storage materials / edited by Inamuddin [and three others].

Ebook Central Academic Complete Available online

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Format:
Book
Contributor:
Inamuddin, 1980- editor.
Series:
Materials Research Foundations Series
Materials Research Foundations Series ; v.78
Language:
English
Subjects (All):
Biomass.
Physical Description:
1 online resource (151 pages)
Edition:
1st ed.
Place of Publication:
Millersville, Pennsylvania : Materials Research Forum LLC, [2020]
Summary:
The book presents an in-depth review of biomass-derived materials for energy storage technologies. Biomass is the most renewable and abundant carbon resource and has great potential for sustainable energy production.
Contents:
Intro
front-matter
Table of Contents
Preface
1
Bone Char as a Support Material to Build a Microbial Biocapacitor
1. Introduction
2. Influence of the chemical and textural properties on biochar
3. Bioanode preparation
4. Accumulated charge
5. Biochar-based anode and bioanode capacitances
Conclusions
Acknowledgements
List of abbreviations
References
2
Nature Inspired Materials for Energy Storage
2. Properties of nature-derived carbons properties for fulfilling the operational need for EDLC- supercapacitors
3. Various preparation mechanisms for nature derived carbons for supercapacitor
4. Advantages of naturally-derived carbons over graphene and CNT for EDLC supercapacitors
5. Use of different biological precursors
5.1 Plant-derived precursors
5.2 Fruit based precursors
5.3 Microbial-based precursors
5.4 Animal-based precursors
6. Structural characteristics and properties of nature derived carbons
Conclusions and future directions
3
Biomass Derived Composites for Energy Storage
2. Sustainable biomass-carbon materials
3. Calculation paramaters
4. Biomass activation
4.1 Physical activation
4.2 Chemical activation
4.3 Hydrothermal carbonization
4.4 Other activations
5. Outlook
Conclusions and prospects
4
Lignin-Derived Materials for Energy Storage
2. Lignin isolation process
3. Lignin carbon fibres
3.1 Activation techniques
3.2 Lignin- Lignin blends
3.3 Lignin-Cellulose blends
3.4 Fractionation
3.5 Reinforcement
3.6 Chemical modification
3.7 New lignin types
4. Lignin-derived porous carbon
5. Challenges with graphite-based electrodes
6. Lignin for electrochemical applications
6.1 Lithium-ion batteries.
6.2 Electrochemical double layer capacitors
6.3 Electrochemical pseudocapacitors
6.4 Sodium -ion batteries
6.5 Lignin as binder
Conclusion and Perspectives
This research work was financially supported by the University Malaya Impact-Oriented Interdisciplinary Research Grant (No.IIRG018A-2019) and Global Collaborative Programme - SATU Joint Research Scheme (No. ST012-2019).
5
Bamboo Derived Materials for Energy Storage
2. Fabrication of electrode material for supercapacitor application
3. Physical characterization
4. Electrochemical measurements
Conclusion
6
Cellulose-Derived Electrodes for Energy Storage
2. Cellulose based flexible composite electrodes
3. Cellulose carbonization and activation
4. Cellulose-derived carbon for supercapacitors
5. Cellulose-derived carbon for high-frequency supercapacitors
6. Cellulose-derived carbon for lithium-ion batteries
7. Cellulose-derived carbon for lithium-sulfur batteries
8. Cellulose-derived carbon for other batteries
back-matter
Keyword Index
About the Editors.
Notes:
Includes bibliographical references and index.
Description based on print version record.
Description based on publisher supplied metadata and other sources.
ISBN:
1-64490-087-4
OCLC:
1164504360

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