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Polymers for Energy Storage and Delivery
Kirt A. Page, Christopher L. Soles and
Polymers for Energy Storage and Delivery
ean9780841226319
temáticaQUÍMICA GENERAL
año Publicación2013
idiomaINGLÉS
editorialOXFORD UNIVERSITY PRESS
formatoCARTONÉ


114,95 €


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química general
Polymeric materials have been and continue to be a focus of research in the development of materials for energy conversion, storage and delivery applications (fuel cells, batteries, photovoltaics, capacitors, etc.). Significant growth in this field started in the early 1990s and has continued to grow quite substantially since that time. Polymeric materials now have a prominent place in energy research.

For polymers, particularly polyelectrolytes, being used in fuel cell and battery applications, the importance of chain microstructure, chain dynamics, and nanoscale morphology on the overall performance characteristics of these materials cannot be overstated. As further advancements are made in polymer chemistry, control of nanostructure and characterization, there is a necessity for organized forums that foster cross-fertilization of knowledge and ideas between experts in polymer chemistry, chemical engineering, and polymer physics. This volume is the result of such a forum.

Most of the chapters in this book are based on a cross-section of the oral presentations in a symposium on Polymers for Energy Storage and Delivery held in March of 2011 as part of the 241st ACS National Meeting & Exposition (Anaheim, CA). The book contains 17 chapters presented in two parts. Part one focuses on polymers for battery applications and will cover theory and modeling, novel materials, and materials characterization. Professor Janna Maranas has provided an excellent review of the current state of understanding in polyelectrolytes as ion conductors in batteries. Part two will focus on polymers for fuel cells and will cover novel materials, transport, and materials characterization with a brief introduction into the history of polyelectrolytes for fuel cells and the classes of materials being pursued. Realizing the common role that nanostructure plays in both battery and fuel cell applications, Professor Moon Jeong Park and coworkers have also contributed a chapter demonstrating the role of nanostructured polyelectrolyte systems in energy storage and delivery. In addition, the editors are pleased to have a chapter - contributed by Professor Howard Wang and staff scientists of the NIST Center for Neutron Research - on the most state-of-art, in-situ neutron methods for studying lithium ion batteries.

Readership : Suitable for academics and professionals in this and related fields.

indíce
Preface
1. Janna K. Maranas: Polyelectrolytes for Batteries: Current State of Understanding
2. Wenjuan Liu, Michael J. Janik, and Ralph H. Colby: First Principles Design of Ionomers for Facile Ion Transport
3. Takeo Suga and Hiroyuki Nishide: Redox-Active Radical Polymers for a Totally Organic Rechargeable Battery
4. Markus Willgert, Maria H. Kjell, and Mats Johansson: Effect of Lithium Salt Content on the Performance of Thermoset Lithium Battery Electrolytes
5. Hua-Gen Peng, Madhusudan Tyagi, Kirt A. Page, and Christopher L. Soles: Inelastic Neutron Scattering on Polymer Electrolytes for Lithium-Ion Batteries
6. Howard Wang, R. Gregory Downing, Joseph A. Dura, and Daniel S. Hussey: In Situ Neutron Techniques for Studying Lithium Ion Batteries
7. R. Zaffou, W. N. Li, and M. L. Perry: Vanadium Redox Flow Batteries for Electrical Energy Storage: Challenges and Opportunities
8. Moon Jeong Park, Jaewan Hong, and Seong Yeon Kim: Role of Nanostructures in Polymer Electrolytes for Energy Storage and Delivery
9. Kirt A. Page and Brandon W. Rowe: An Overview of Polymer Electrolyte Membranes for Fuel Cell Applications
10. Adam D. Miller, Matthieu Gervais, Jai Krishnamurthy, Leon Dyers, Xiaobing Zhu, Ravindra Potrekar, Xin Fei, Adam Weber, and John B. Kerr: Polymer Materials for Charge Transfer in Energy Devices
11. Ahmet Kusoglu and Adam Z. Weber: Water Transport and Sorption in Nafion Membrane
12. H. Ghassemi, T. Zawodzinski, D. Schiraldi, and S. Hamrock: Cross-Linked Low EW PFSA for High Temperature Fuel Cell
13. Mahesh P. Kulkarni, Owen D. Thomas, Timothy J. Peckham, and Steven Holdcroft: High Ion Exchange Capacity, Sulfonated Polybenzimidazoles
14. Yuesheng Ye and Yossef A. Elabd: Chemical Stability of Anion Exchange Membranes for Alkaline Fuel Cells
15. Tsung-Han Tsai, Craig Versek, Michael Thorn, Mark Tuominen, and E. Bryan Coughlin: Block Copolymers Containing Quaternary Benzyl Ammonium Cations for Alkaline Anion Exchange Membrane Fuel Cells (AAEMFC)
16. Sangcheol Kim, Kirt A. Page, and Christopher L. Soles: Structure and Properties of Proton Exchange Membrane Fuel Cells at Interfaces
17. Viatcheslav Freger: Thermodynamics, Microstructure and Interfacial Effects in Hydrated Nafion
Editors’ Biographies
Indexes
Author Index
Subject Index
Finançat per UE