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The Resource Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium-Sulfur Batteries : Next-Generation High Performance Lithium-Sulfur Batteries

Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium-Sulfur Batteries : Next-Generation High Performance Lithium-Sulfur Batteries

Label
Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium-Sulfur Batteries : Next-Generation High Performance Lithium-Sulfur Batteries
Title
Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium-Sulfur Batteries
Title remainder
Next-Generation High Performance Lithium-Sulfur Batteries
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Subject
Language
eng
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Cataloging source
MiAaPQ
Literary form
non fiction
Nature of contents
dictionaries
Series statement
Springer Theses Ser
Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium-Sulfur Batteries : Next-Generation High Performance Lithium-Sulfur Batteries
Label
Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium-Sulfur Batteries : Next-Generation High Performance Lithium-Sulfur Batteries
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http://libproxy.rpi.edu/login?url=https://ebookcentral.proquest.com/lib/rpi/detail.action?docID=4803538
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Copyright
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Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • "Supervisorsâ{u0080}{u0099} Foreword" -- Parts of this thesis have been published in the following journal articles:[A1] Guangmin Zhou, Songfeng Pei, Lu Li, Da-Wei Wang, Shaogang Wang, Kun Huang, Li-Chang Yin, Feng Li, Hui-Ming Cheng. A graphene-pure sulphur sandwich structure for ultrafast, long-life lithium-sulphur batteries. Advanced Materials, 2014, 26, 625â{u0080}{u0093}631.[A2] Guangmin Zhou, Li-Chang Yin, Da-Wei Wang, Lu Li, Songfeng Pei, Ian R. Gentle, Feng Li, and Hui-Ming Cheng, Fibrous hybrid of graphene and sulfur nanocrystals for high -- "Acknowledgements" -- "Contents" -- "About the Author" -- "Other Academic Awards and Honors Include" -- "Abbreviations" -- "1 Introduction" -- "1.1 Introduction of Lithiumâ{u0080}{u0093}Sulfur Secondary Battery" -- "1.1.1 Cathode Materials" -- "1.1.1.1 Sulfurâ{u0080}{u0093}Carbon Composites" -- "1.1.1.2 Sulfur-Conducting Polymer Composites" -- "1.1.1.3 Sulfur/Metal Oxide Composite" -- "1.1.1.4 Lithium Sulfide Materials" -- "1.1.2 Anode Materials" -- "1.1.3 Separators and Interlayers" -- "1.1.4 Electrolyte" -- "1.2 Motivations of the Thesis" -- "References" -- "2 Revealing Localized Electrochemical Transition of Sulfur in Sub-nanometer Confinement" -- "2.1 Research Background" -- "2.2 Design, Fabrication, and Characterization of Carbonâ{u0080}{u0093}Sulfur Composite Cathode" -- "2.2.1 Synthesis of Hierarchical Porous Carbon (HPC)" -- "2.2.2 Synthesis of Carbonâ{u0080}{u0093}Sulfur Composite" -- "2.2.3 Structure Characterization of the Carbonâ{u0080}{u0093}Sulfur Composite" -- "2.2.4 Electrochemical Performance of the Carbonâ{u0080}{u0093}Sulfur Composite Cathode" -- "2.3 Mechanism Analysis of the Pore Size Dependence of Confinement on Electrochemical Performance in Liâ{u0080}{u0093}S Batteries" -- "2.4 Conclusion" -- "References" -- "3 Flexible Nanostructured Sulfurâ{u0080}{u0093}Carbon Nanotube Cathode with High-Rate Performance for Liâ{u0080}{u0093}S Batteries" -- "3.1 Research Background"
  • "3.2 Design and Fabrication of Flexible Nanostructured S-CNT Cathode" -- "3.2.1 Synthesis of S-Containing Anodic Aluminum Oxide (AAO) Template" -- "3.2.2 Synthesis of S-CNTs Composites" -- "3.2.3 Synthesis of CNTs" -- "3.2.4 Fabrication of Flexible S-CNT Membranes" -- "3.3 Sulfur Formation Mechanism" -- "3.4 Characterization of S-CNTs" -- "3.5 Control of the Sulfur Content in the S-CNTs" -- "3.6 First-Principles Calculations of the Sulfur Molecules Diffusion Within the Micropores" -- "3.7 Synthesis, Structure, and Performance of Flexible S-CNT Electrode" -- "3.8 Electrochemical Performance of Flexible Nanostructured S-CNT Cathode" -- "3.9 Fabrication of Flexible Silicon/Graphene Anode and Assembly of Flexible Liâ{u0080}{u0093}S Full Battery Prototype" -- "3.9.1 Fabrication of Flexible Silicon/Graphene Composite Film" -- "3.9.2 Fabrication of Flexible Prelithiated Silicon/Graphene Composite Film" -- "3.9.3 Assembly of Flexible Liâ{u0080}{u0093}S Full Battery Prototype" -- "3.10 Conclusion" -- "References" -- "4 Fibrous Hybrid of Graphene and Sulfur Nanocrystals for High-Performance Lithiumâ{u0080}{u0093}Sulfur Batteries" -- "4.1 Research Background" -- "4.2 Material Fabrication and Structure" -- "4.2.1 Synthesis of GO" -- "4.2.2 Synthesis of Intercalation Exfoliated Graphene" -- "4.2.3 Synthesis of the Thermal Exfoliated-Reduced Graphene" -- "4.2.4 Preparation of Gâ{u0080}{u0093}S Hybrids" -- "4.2.5 Preparation of Gâ{u0080}{u0093}S Hybrids (Powder)" -- "4.2.6 Preparation of Gâ{u0080}{u0093}Smix" -- "4.2.7 Structure Characterization of the Composites" -- "4.2.7.1 Effect of Graphene Precursor on Tuning the Morphology and Sulfur Contents" -- "4.2.7.2 Effect of Oxygen Functional Groups on Tuning the Material Morphology and Structure" -- "4.2.7.3 Crystal Structure and Surface Functionality Analysis" -- "4.3 Interaction Mechanism Between Oxygen-Containing Groups and Sulfur/Polysulfides"
  • "4.4 Properties of Sulfur Nanocrystal/Graphene Composites" -- "4.4.1 Electrical Property and Mechanical Flexibility" -- "4.4.2 Electrochemical Performance" -- "4.5 Conclusion" -- "References" -- "5 Grapheneâ{u0080}{u0093}Pure Sulfur Sandwich Structure for Ultrafast, Long-Life Lithium-Sulfur Batteries" -- "5.1 Research Background" -- "5.2 Construction of Sandwich Cathode Structure" -- "5.2.1 GCC Fabrication" -- "5.2.2 Fabrication of Sulfur-Coated GCC Electrodes" -- "5.2.3 G-Separator Fabrication" -- "5.3 Structure Characterization of the Sandwich Cathode Structure" -- "5.3.1 Structure Characterization of the Graphene Powder" -- "5.3.2 Structure Feature of the GCC" -- "5.3.3 Structure Characterization of the GCC/S Cathode" -- "5.3.4 Structure Characterization of the G-Separator" -- "5.4 Electrochemical Performance of the Sandwich Cathode Structure" -- "5.5 Interaction Between Graphene and Sulfur Species in Sandwich Cathode Structure" -- "5.5.1 Function as a Current Collector" -- "5.5.2 Function as a Separator Coating Layer" -- "5.6 Conclusion" -- "References" -- "6 A Graphene Foam Electrode with High Sulfur Loading for Flexible and High-Energy Liâ{u0080}{u0093}S Batteries" -- "6.1 Research Background" -- "6.2 Fabrication and Characterization of the 3D GF-Based Electrode" -- "6.2.1 Preparation of PDMS/GF" -- "6.2.2 Preparation of S-PDMS/GF Electrode" -- "6.2.3 Structure Characterization of the S-PDMS/GF Electrode" -- "6.3 Mechanical Properties of the 3D GF-Based Electrode" -- "6.4 Electrochemical Performance of the 3D GF-Based Sulfur Electrode" -- "6.5 Areal Capacity of the 3D GF-Based Sulfur Electrode" -- "6.6 Conclusion" -- "References" -- "7 Conclusions and Perspective" -- "7.1 Main Conclusion and Innovations"
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1 online resource (131 pages)
Form of item
online
Isbn
9789811034060
Media category
computer
Media MARC source
rdamedia
Media type code
c
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