Multifunctional Nanocomposites for Energy and Environmental Applications
Focusing on real applications of nanocomposites and nanotechnologies for sustainable development, this book shows how nanocomposites can help to solve energy and environmental problems, including a broad overview of energy-related applications and a unique selection of environmental topics. Clearly structured, the first part covers such energy-related applications as lithium ion batteries, solar cells, catalysis, thermoelectric waste heat harvesting and water splitting, while the second part provides unique perspectives on environmental fields, including nuclear waste management and carbon dioxide capture and storage. The result is a successful combination of fundamentals for newcomers to the field and the latest results for experienced scientists, engineers, and industry researchers.
Chapter 1: Introduction Chapter 2: Advanced Nanocomposites Electrodes for Lithium Ion Batteries Chapter 3: Carbon Nanocomposites in Electrochemical Capacitor Applicant Chapter 4: Application in Nanostructure Electrodes in Halide Perovskite Solar Cells and Electrochromic Devices Chapter 5: Perovskite Solar Cell Chapter 6: Nanocomposite Structures Related to Electrospun Nanofibers for Highly Efficient and Cost Effective Dye Sensitize Chapter7: Laser Ablation Based Techniques for Solution-phase Synthesis Chapter 8: Thermoelectric Nano Composite for Energy Harvesting Chapter 9: Graphene Composite Catalysts for Electrochemical Energy Conversion Chapter 10: Electrochromic Materials and Devices Fundamentals and Nanostructuring Approaches Chapter 11: Nanocomposite Photocatalysts for Solar Fuel Production from CO2 and Water Chapter 12: The Application of Nanocomposite Catalysts in Biofuels Production Chapter 13: Photocatalytic Nanomaterials for Energy and Environment Chapter 14: Role of Interfaces at the Nano-architectured Photocatalysts for Hydrogen Production from Water Splitting Chapter 15: Nanostructures Catalysts for Small Molecule Conversion Chapter 16: Rational Heterostructure Design for Photo Electrochemical Water Splitting Chapter 17: Layered Doubled Hydroxides Derived NOx Storage Reduction Catalyst for Vehicle NOx Emission Control Chapter 18: Applications of Nanomaterial in Nuclear Waste Management Chapter 19: Electromagnetic Interference Shielding Chapter 20: Mussel-inspired Nanocomposites Synthesis and Promising Applications in Environmental Fields
ZhaZhanhu Guo is Associate Professor in the Department of Chemical and Biomolecular Engineering at The University of Tennessee, Knoxville, USA. He received his PhD in chemical engineering from Louisiana State University, USA, followed by postdoctoral studies in mechanical and aerospace engineering at the University of California, Los Angeles, USA. He was the Chair of the Composite Division of the American Institute of Chemical Engineers in 2010-2011. Dr. Guo's Integrated Composites Laboratory focuses on multifunctional nanocomposites for energy, environmental and electronic devices applications. Yuan Chen is Professor in the School of Chemical and Biomolecular Engineering at The University of Sydney, Australia. He received his PhD in chemical engineering from Yale University. Before joining The University of Sydney, he was Associate Professor at Nanyang Technological University, Singapore, where he served as Head of the Chemical and Biomolecular Engineering Division in 2011-2014. His research focuses on carbon nanomaterials for sustainable energy and environmental applications. He received several awards including Australian Research Council Future Fellowship in 2017 and Young Scientist Awards by the Singapore National Academy of Science in 2011. Na (Luna) Lu is an associate professor of the Lyles School of Civil Engineering and School of Materials Engineering at Purdue University. She has research interests/expertise in using nanotechnology to tailor a material's (electrical, thermal, mechanical, and optical) properties for renewable energy applications, in particular, thermoelectric, piezoelectric and solar cells. Fundamentally, her group studies electron, phonon, and photon transport mechanisms for a given materials system, and designs the transport properties to meet the targeted performance. Her research work has been featured in national and regional media. She is the recipient of a 2014 National Science Foundation Yong Investigator CAREER Award.
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