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| Author | : R. Kostecki |
| Publisher | : The Electrochemical Society |
| Total Pages | : 43 |
| Release | : 2011-03 |
| Genre | : Science |
| ISBN | : 1566778808 |
The papers included in this issue of ECS Transactions were originally presented in the symposium ¿Materials Design and Electrode Architecture for Batteries¿, held during the 218th meeting of The Electrochemical Society, in Las Vegas, Nevada from October 10 to 15, 2010.
| Author | : Christian Julien |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 577 |
| Release | : 2013-11-27 |
| Genre | : Science |
| ISBN | : 146152704X |
The field of solid state ionics is multidisciplinary in nature. Chemists, physicists, electrochimists, and engineers all are involved in the research and development of materials, techniques, and theoretical approaches. This science is one of the great triumphs of the second part of the 20th century. For nearly a century, development of materials for solid-state ionic technology has been restricted. During the last two decades there have been remarkable advances: more materials were discovered, modem technologies were used for characterization and optimization of ionic conduction in solids, trial and error approaches were deserted for defined predictions. During the same period fundamental theories for ion conduction in solids appeared. The large explosion of solid-state ionic material science may be considered to be due to two other influences. The first aspect is related to economy and connected with energy production, storage, and utilization. There are basic problems in industrialized countries from the economical, environmental, political, and technological points of view. The possibility of storing a large amount of utilizable energy in a comparatively small volume would make a number of non-conventional intermittent energy sources of practical convenience and cost. The second aspect is related to huge increase in international relationships between researchers and exchanges of results make considerable progress between scientists; one find many institutes joined in common search programs such as the material science networks organized by EEC in the European countries.
| Author | : Senentxu Lanceros-Méndez |
| Publisher | : John Wiley & Sons |
| Total Pages | : 270 |
| Release | : 2018-04-23 |
| Genre | : Technology & Engineering |
| ISBN | : 1119287421 |
Offers the first comprehensive account of this interesting and growing research field Printed Batteries: Materials, Technologies and Applications reviews the current state of the art for printed batteries, discussing the different types and materials, and describing the printing techniques. It addresses the main applications that are being developed for printed batteries as well as the major advantages and remaining challenges that exist in this rapidly evolving area of research. It is the first book on printed batteries that seeks to promote a deeper understanding of this increasingly relevant research and application area. It is written in a way so as to interest and motivate readers to tackle the many challenges that lie ahead so that the entire research community can provide the world with a bright, innovative future in the area of printed batteries. Topics covered in Printed Batteries include, Printed Batteries: Definition, Types and Advantages; Printing Techniques for Batteries, Including 3D Printing; Inks Formulation and Properties for Printing Techniques; Rheological Properties for Electrode Slurry; Solid Polymer Electrolytes for Printed Batteries; Printed Battery Design; and Printed Battery Applications. Covers everything readers need to know about the materials and techniques required for printed batteries Informs on the applications for printed batteries and what the benefits are Discusses the challenges that lie ahead as innovators continue with their research Printed Batteries: Materials, Technologies and Applications is a unique and informative book that will appeal to academic researchers, industrial scientists, and engineers working in the areas of sensors, actuators, energy storage, and printed electronics.
| Author | : Dorian A. H. Hanaor |
| Publisher | : Springer Nature |
| Total Pages | : 589 |
| Release | : |
| Genre | : |
| ISBN | : 3031473035 |
| Author | : Xiao Zhang (Ph. D. in materials science and engineering) |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2022 |
| Genre | : |
| ISBN | : |
With fast electrification of the modern society and increasing number of smart devices, portable energy storage solutions are in high demand. Among various energy storage systems (ESS), lithium-ion battery (LIB) has become one of the most popular EESs due to high energy, long lifetime and... Nevertheless, current LIB technology still needs higher energy density to provide reliable and flexible stationary energy storage as well as to power large electronics including electric vehicles (EVs). LIBs are multi-component systems consisting of active materials as energy storage sites and other inactive materials facilitating the energy conversion process. By increasing the electrode areal loading, higher active material ratio could lead to higher energy density on the cell level. However, due to the prolonged transport distance and tortuous diffusion pathways, thick electrodes oftentimes show deteriorated electrochemical performance. Several key steps are determining the overall energy storage kinetics, where ion transport plays an important role in thick electrodes. In this thesis, various approaches have been made to improve the ion transport, in order to restore the full potential of the active materials inside thick electrodes
| Author | : Nithyadharseni Palaniyandy |
| Publisher | : Springer Nature |
| Total Pages | : 298 |
| Release | : 2022-11-01 |
| Genre | : Technology & Engineering |
| ISBN | : 3031124707 |
This book offers a comprehensive analysis of novel design strategies in higher energy solid-state lithium batteries. It describes synthesis and experimental techniques to characterize the physical, chemical and electrochemical properties of the electrode and electrolytes. The book reports on electrochemical measurements of conductivity and related parameters in solid electrolytes and its interfaces. It also presents various technologies that have been used for the fabrication of all-solid-state lithium-ion batteries such as thin-film, 3D printing (additive manufacturing) and atomic layer deposition. A large part of the text focus on the description on the complete functioning and challenges with the electrochemistry of the electrodes and solid electrolyte interfaces. The book also supplies valuable insight into potential growth opportunities in this exciting market and cost-effective design tactics in solid-state assemblies.
| Author | : Haiyan Wang |
| Publisher | : John Wiley & Sons |
| Total Pages | : 341 |
| Release | : 2024-03-26 |
| Genre | : Technology & Engineering |
| ISBN | : 3527835059 |
Aqueous Zinc Ion Batteries Pioneering reference book providing the latest developments and experimental results of aqueous zinc ion batteries Aqueous Zinc Ion Batteries comprehensively reviews latest advances in aqueous zinc ion batteries and clarifies the relationships between issues and solutions for the emerging battery technology. Starting with the history, the text covers essentials of each component of aqueous zinc ion batteries, including cathodes, anodes, and electrolytes, helping readers quickly attain a foundational understanding of the subject. Written by three highly qualified authors with significant experience in the field, Aqueous Zinc Ion Batteries provides in-depth coverage of sample topics such as: History, main challenges, and zinc metal anodes for aqueous zinc ion batteries Electrochemical reaction mechanism of aqueous zinc ion batteries and interfacial plating and stripping on zinc anodes Cathode materials for aqueous zinc ion batteries, covering manganese-based materials, vanadium-based materials, Prussian blue analogs, and other cathode materials Development of electrolytes, issues, and corresponding solutions for aqueous zinc ion batteries Separators for aqueous zinc ion batteries, development of full zinc ion batteries, and future perspectives on the technology A detailed resource on a promising alternative to current lithium-ion battery systems, Aqueous Zinc Ion Batteries is an essential read for materials scientists, electrochemists, inorganic chemists, surface chemists, catalytic chemists, and surface physicists who want to be on the cutting edge of a promising new type of battery technology.
| Author | : Laure Monconduit |
| Publisher | : John Wiley & Sons |
| Total Pages | : 100 |
| Release | : 2015-06-29 |
| Genre | : Science |
| ISBN | : 1848217218 |
The electrochemical energy storage is a means to conserve electrical energy in chemical form. This form of storage benefits from the fact that these two energies share the same vector, the electron. This advantage allows us to limit the losses related to the conversion of energy from one form to another. The RS2E focuses its research on rechargeable electrochemical devices (or electrochemical storage) batteries and supercapacitors. The materials used in the electrodes are key components of lithium-ion batteries. Their nature depend battery performance in terms of mass and volume capacity, energy density, power, durability, safety, etc. This book deals with current and future positive and negative electrode materials covering aspects related to research new and better materials for future applications (related to renewable energy storage and transportation in particular), bringing light on the mechanisms of operation, aging and failure.
| Author | : Laure Monconduit |
| Publisher | : John Wiley & Sons |
| Total Pages | : 102 |
| Release | : 2015-06-02 |
| Genre | : Science |
| ISBN | : 1119007372 |
The electrochemical energy storage is a means to conserve electrical energy in chemical form. This form of storage benefits from the fact that these two energies share the same vector, the electron. This advantage allows us to limit the losses related to the conversion of energy from one form to another. The RS2E focuses its research on rechargeable electrochemical devices (or electrochemical storage) batteries and supercapacitors. The materials used in the electrodes are key components of lithium-ion batteries. Their nature depend battery performance in terms of mass and volume capacity, energy density, power, durability, safety, etc. This book deals with current and future positive and negative electrode materials covering aspects related to research new and better materials for future applications (related to renewable energy storage and transportation in particular), bringing light on the mechanisms of operation, aging and failure.
