Carbon Nanomaterials for Advanced Energy Systems Advances in Materials Synthesis and Device Applications 1st Edition by Wen Lu, Jong Beom Baek, Liming Dai 1118580788 9781118580783
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ISBN 10: 1118580788
ISBN 13: 9781118580783
Author: Wen Lu, Jong-Beom Baek, Liming Dai
With the proliferation of electronic devices, the world will need to double its energy supply by 2050. This book addresses this challenge and discusses synthesis and characterization of carbon nanomaterials for energy conversion and storage. Addresses one of the leading challenges facing society today as we steer away from dwindling supplies of fossil fuels and a rising need for electric power due to the proliferation of electronic products Promotes the use of carbon nanomaterials for energy applications Systematic coverage: synthesis, characterization, and a wide array of carbon nanomaterials are described Detailed descriptions of solar cells, electrodes, thermoelectrics, supercapacitors, and lithium-ion-based storage Discusses special architecture required for energy storage including hydrogen, methane, etc.
Carbon Nanomaterials for Advanced Energy Systems Advances in Materials Synthesis and Device Applications 1st Table of contents:
PART I: SYNTHESIS AND CHARACTERIZATION OF CARBON NANOMATERIALS
1 FULLERENES, HIGHER FULLERENES, AND THEIR HYBRIDS: SYNTHESIS, CHARACTERIZATION, AND ENVIRONMENTAL CONSIDERATIONS
1.1 INTRODUCTION
1.2 FULLERENE, HIGHER FULLERENES, AND NANOHYBRIDS: STRUCTURES AND HISTORICAL PERSPECTIVE
1.3 SYNTHESIS AND CHARACTERIZATION
1.4 ENERGY APPLICATIONS
1.5 ENVIRONMENTAL CONSIDERATIONS FOR FULLERENE SYNTHESIS AND PROCESSING
REFERENCES
2 CARBON NANOTUBES
2.1 SYNTHESIS OF CARBON NANOTUBES
2.2 CHARACTERIZATION OF NANOTUBES
2.3 SUMMARY
REFERENCES
3 SYNTHESIS AND CHARACTERIZATION OF GRAPHENE
3.1 INTRODUCTION
3.2 OVERVIEW OF GRAPHENE SYNTHESIS METHODOLOGIES
3.3 GRAPHENE CHARACTERIZATIONS
3.4 SUMMARY AND OUTLOOK
REFERENCES
4 DOPING CARBON NANOMATERIALS WITH HETEROATOMS
4.1 INTRODUCTION
4.2 LOCAL BONDING OF THE DOPANTS
4.3 SYNTHESIS OF HETERODOPED NANOCARBONS
4.4 CHARACTERIZATION OF HETERODOPED NANOTUBES AND GRAPHENE
4.5 POTENTIAL APPLICATIONS
4.6 SUMMARY AND OUTLOOK
REFERENCES
PART II: CARBON NANOMATERIALS FOR ENERGY CONVERSION
5 HIGH-PERFORMANCE POLYMER SOLAR CELLS CONTAINING CARBON NANOMATERIALS
5.1 INTRODUCTION
5.2 CARBON NANOMATERIALS AS TRANSPARENT ELECTRODES
5.3 CARBON NANOMATERIALS AS CHARGE EXTRACTION LAYERS
5.4 CARBON NANOMATERIALS IN THE ACTIVE LAYER
5.5 CONCLUDING REMARKS
ACKNOWLEDGMENTS
REFERENCES
6 GRAPHENE FOR ENERGY SOLUTIONS AND ITS PRINTABLE APPLICATIONS
6.1 INTRODUCTION TO GRAPHENE
6.2 ENERGY HARVESTING FROM SOLAR CELLS
6.3 OPV DEVICES
6.4 LITHIUM-ION BATTERIES
6.5 SUPERCAPACITORS
6.6 GRAPHENE INKS
6.7 CONCLUSIONS
REFERENCES
7 QUANTUM DOT AND HETEROJUNCTION SOLAR CELLS CONTAINING CARBON NANOMATERIALS
7.1 INTRODUCTION
7.2 QD SOLAR CELLS CONTAINING CARBON NANOMATERIALS
7.3 CARBON NANOMATERIAL/SEMICONDUCTOR HETEROJUNCTION SOLAR CELLS
7.4 SUMMARY
REFERENCES
8 FUEL CELL CATALYSTS BASED ON CARBON NANOMATERIALS
8.1 INTRODUCTION
8.2 NANOCARBON-SUPPORTED CATALYSTS
8.3 INTERFACE INTERACTION BETWEEN Pt CLUSTERS AND GRAPHITIC SURFACE
8.4 CARBON CATALYST
REFERENCES
PART III: CARBON NANOMATERIALS FOR ENERGY STORAGE
9 SUPERCAPACITORS BASED ON CARBON NANOMATERIALS
9.1 INTRODUCTION
9.2 SUPERCAPACITOR TECHNOLOGY AND PERFORMANCE
9.3 NANOPOROUS CARBON
9.4 GRAPHENE AND CARBON NANOTUBES
9.5 NANOSTRUCTURED CARBON COMPOSITES
9.6 OTHER COMPOSITES WITH CARBON NANOMATERIALS
9.7 CONCLUSIONS
REFERENCES
10 LITHIUM-ION BATTERIES BASED ON CARBON NANOMATERIALS
10.1 INTRODUCTION
10.2 IMPROVING LI-ION BATTERY ENERGY DENSITY
10.3 IMPROVEMENTS TO LITHIUM-ION BATTERIES USING CARBON NANOMATERIALS
10.4 CARBON NANOMATERIALS AS CONDUCTIVE ADDITIVES
10.5 SWCNT ADDITIVES TO INCREASE ENERGY DENSITY
10.6 CARBON NANOMATERIALS AS CURRENT COLLECTORS
10.7 IMPLEMENTATION OF CARBON NANOMATERIAL CURRENT COLLECTORS FOR STANDARD ELECTRODE COMPOSITES
10.8 IMPLEMENTATION OF CARBON NANOMATERIAL CURRENT COLLECTORS FOR ALLOYING ACTIVE MATERIALS
10.9 ULTRASONIC BONDING FOR POUCH CELL DEVELOPMENT
10.10 CONCLUSION
REFERENCES
11 LITHIUM/SULFUR BATTERIES BASED ON CARBON NANOMATERIALS
11.1 INTRODUCTION
11.2 FUNDAMENTALS OF LITHIUM/SULFUR CELLS
11.3 NANOSTRUCTURE CARBON–SULFUR
11.4 CARBON LAYER AS A POLYSULFIDE SEPARATOR
11.5 OPPORTUNITIES AND PERSPECTIVES
REFERENCES
12 LITHIUM–AIR BATTERIES BASED ON CARBON NANOMATERIALS
12.1 METAL–AIR BATTERIES
12.2 Li–AIR CHEMISTRY
12.3 CARBON NANOMATERIALS FOR LI–AIR CELLS CATHODE
12.4 AMORPHOUS CARBONS
12.5 GRAPHITIC CARBONS
12.6 CONCLUSIONS
REFERENCES
13 CARBON-BASED NANOMATERIALS FOR H2 STORAGE
13.1 INTRODUCTION
13.2 HYDROGEN STORAGE IN FULLERENES
13.3 HYDROGEN STORAGE IN CARBON NANOTUBES
13.4 HYDROGEN STORAGE IN GRAPHENE-BASED MATERIALS
13.5 CONCLUSIONS
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Tags: Wen Lu, Jong Beom Baek, Liming Dai, Nanomaterials