This book is for scientists and
engineers interested in energy-related materials, compounds and
electronic devices. Prof. Yong Zhou is currently serving as a full
professor at the Eco-Materials and Renewable Energy Research Center
ERERC, Nanjing University, China.
內容簡介:
Eco- and Renewable Energy Materials
provides a survey of the current topics and the major developmental
trends in the rapidly growing research area of clean energy
materials. This book cove, but is not limited to, photochemical
materials fuels from light, fuel cells electricity from fuels,
batteries electricity storage, and hydrogen production and
storage. This book is intended as a vehicle for the dissemination
of research results on energy-based material science in the form of
commissioned reviews and commentaries. This book is for scientists
and enginee interested in energy-related materials, compounds and
electronic devices. Prof. Yong Zhou is currently serving as a full
professor at the Eco- Materials and Renewable Energy Research
Center ERERC, Nanjing Univeity, China.
目錄:
Chapter 1 Silicon Based Photovoltaic Materials
1.1 Introduction
1.2 Wafer-based crystalline silicon
1.2.1 Mono-crystalline silicon
1.2.2 Multi-crystalline silicon
1.2.3 Sheet and ribbon silicon
1.3 Thin-film silicon
1.3.1 Hydrogenated amorphous silicon a-Si:H
1.3.2 Hydrogenated microcrystalline silicon c-Si:H..
1.4 Nano-structured silicon
1.4.1 Silicon nanowire
1.4.2 Silicon quantum dots
1.5 Conclusion and pepective
Reference
Chapter 2 Perylenes in Organic Photovoltaics
2.1 Introduction
2.2 Perylene pigments in solar cells
2.3 Perylene dyes in solar cells
2.4 Perylene contained polymeoligome in solar cells ..
2.4.1 Perylene contained heterojunction solar cells .,
2.4.2 Perylene contained single-molecular solar cells .,
2.5 Perylenes in Gritzel solar cells
2.5.1 The derivatives ofperylenediimides
2.5.2 The derivatives of perylenemonoimides
2.5.3 Perylene based multichromophores
2.6 Conclusion and outlook
Acknowledgements
References
Chapter 3 Carbon Corrosion in Polymer Electrolyte Membrane Fuel
Cell Catalysts and its Mitiga tion Strategies
3.1 Introduction
3.2 Carbon corrosion
3.2.1 The reaso and coequences
3.2.2 Mechanism of carbon corrosion
3.2.3 Test methods and characterization
3.3 Mitigation strategies to carbon corrosion
3.3.1 System strategy
3.3.2 Corrosion-resistant catalyst support
Acknowledgements
References
Chapter 4 Converting Low-grade Biomass to Produce Energy Using
Bio-fuel Cells
4.1 Introduction
4.2 Theoretical principles of bio-fuel cells
4.3 Desig for scaling up
4.4 Materials in bio-fuel cells
4.4.1 Fuels
4.4.2 Biocatalysts
4.4.3 Enzymes in EFCs
4.4.4 Microbes used in MFCs
4.4.5 Oxidants
4.4.6 Electrode materials
4.4.7 Power output in bio-fuel cells
4.5 Concluding remarks
References
Chapter 5 Nanostructured Electrode Materials for Lithium-ion
Batteries
5.1 Introduction
5.2 Nanostructured anode
5.2.1 Nanostructured Si
5.2.2 Nano-sized traition-metal oxides
5.2.3 Nanostructured Sn alloy and oxide
5.2.4 Nanostructured lithium titanium oxides and tita nium
oxides
5.3 Nanostructured cathode
5.3.1 Nanostructured metal oxides
5.3.2 Lithium traition metal oxides
5.3.3 Olivine LiFePO4
5.4 Conclusion
Acknowledgements
References
Chapter 6 Fiber Solar Cells
6.1 Introduction
6.2 A summary of flexible flat plate cells
6.3 Flexible fiber cells
6.3.1 Organic fiber cells
6.3.2 Dye-seitized fiber solar cells
6.4 Module of the fiber cell
6.4.1 Module of screen electrodes
6.4.2 Module of single-wire solar cell array arrangement
6.4.3 Module of roll-to-roll, mass production, and weav- ing
technology
6.5 Three-dimeional light-collecting feature of fiber cell
6.5.1 Diffused reflection and utilization of stray light
6.5.2 Dependence on angle
6.5.3 Design of Light-concentrating structure
6.5.4 Colorful weaving cell
6.6 Conclusion and prospect
References
Chapter 7 Semiconducto for Photoelectroche Mical Hydrogen
Generation
7.1 Introduction
7.2 Basic mechanisms and types of PECs for H2 production ..
7.3 Photoelectrode materials forPECs H2 generation
7.3.1 TiO2
7.3.2 WO3
7.3.3 Fe203
7.3.4 BiVO4
7.3.5 Other semiconductor photoelectrode materials ..
7.3.6 Heterojunction photoelectrode materials
7.4 Conclusio and future developments
Acknowledgements
References
Chapter 8 The Application of Metal-Organic Fra- me works to CO2
Capture
8.1 Introduction
8.2 MOF membrane for CO2 Separation
8.3 Selectivity adsorption
8.3.1 Carbon dioxide adsorption in rigid metal-organic frame
works
8.3.2 Carbon dioxide adsorption in flexible metal organic
frameworks
8.4 Future prospects
Acknowledgements
References
Chapter 9 CO2 Selective Separation Membranes
9.1 Introduction
9.2 Fundamental background
9.3 Polymeric membranes
9.3.1 Materials, structures and fabrication
9.3.2 Chemical modification and physical blending
9.4 Inorganic membranes
9.4.1 Zeolite
9.4.2 Carbon
9.5 Mixed-matrix Membranes MMMs
9.5.1 Zeolite fille
9.5.2 Carbon fille
9.5.3 Silica fille
9.5.4 Other fille
9.6 Conclusion
References
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