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Author: Ranjusha Rajagopalan
Publisher: CRC Press
ISBN: 1000967107
Category : Technology & Engineering
Languages : en
Pages : 292
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Book Description
This book focusses on the current research on materials for advanced battery technologies and proposes future directions for different types of batteries to meet the current challenges associated with the fuel cell. Furthermore, it provides insights into scientific and practical issues in the development of various batteries like sodium, potassium, zinc, magnesium, aluminum, calcium, and dual metal ion, to bring a new perspective to storage technologies beyond lithium-ion batteries. It introduces different themes of batteries to evaluate the opportunities and challenges of these battery systems from a commercial aspect. Key features: Deals with different potential rechargeable battery systems as suitable substitutes for LIBs Discusses different investigated materials as anode, cathode, and electrolytes for different energy storage systems Provides a complete and comprehensive review of all the existing metal-ion batteries Includes practical challenges and future opportunities of each battery category Reviews commercial aspects of different battery systems This book is aimed at researchers, graduate students, and professionals in industrial and applied chemistry, renewable energy, clean and sustainable processes, chemical engineering, materials science, nanotechnology, and battery chemistry.
Author: Ranjusha Rajagopalan
Publisher: CRC Press
ISBN: 1000967107
Category : Technology & Engineering
Languages : en
Pages : 292
Get Book Here
Book Description
This book focusses on the current research on materials for advanced battery technologies and proposes future directions for different types of batteries to meet the current challenges associated with the fuel cell. Furthermore, it provides insights into scientific and practical issues in the development of various batteries like sodium, potassium, zinc, magnesium, aluminum, calcium, and dual metal ion, to bring a new perspective to storage technologies beyond lithium-ion batteries. It introduces different themes of batteries to evaluate the opportunities and challenges of these battery systems from a commercial aspect. Key features: Deals with different potential rechargeable battery systems as suitable substitutes for LIBs Discusses different investigated materials as anode, cathode, and electrolytes for different energy storage systems Provides a complete and comprehensive review of all the existing metal-ion batteries Includes practical challenges and future opportunities of each battery category Reviews commercial aspects of different battery systems This book is aimed at researchers, graduate students, and professionals in industrial and applied chemistry, renewable energy, clean and sustainable processes, chemical engineering, materials science, nanotechnology, and battery chemistry.
Author: Cheng-Yen Lao
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Author: Garrett P. Wheeler
Publisher: Cambridge University Press
ISBN: 1009034596
Category : Science
Languages : en
Pages : 155
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Book Description
In order to improve the resiliency of the grid and to enable integration of renewable energy sources into the grid, the utilization of battery systems to store energy for later demand is of the utmost importance. The implementation of grid-scale electrical energy storage systems can aid in peak shaving and load leveling, voltage and frequency regulation, as well as emergency power supply. Although the predominant battery chemistry currently used is Li-ion; due to cost, safety and sourcing concerns, incorporation of other battery technologies is of interest for expanding the breadth and depth of battery storage system installations. This Element discusses existing technologies beyond Li-ion battery storage chemistries that have seen grid-scale deployment, as well as several other promising battery technologies, and analyzes their chemistry mechanisms, battery construction and design, and corresponding advantages and disadvantages.
Author: Dan Steingart
Publisher: The Electrochemical Society
ISBN: 1607686872
Category : Science
Languages : en
Pages : 49
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Book Description
Author: Guanjie He
Publisher: Elsevier
ISBN: 0443155151
Category : Technology & Engineering
Languages : en
Pages : 0
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Book Description
Electrochemical Energy Storage Technologies Beyond Li-ion Batteries focuses on an overview of the current research directions to enable the commercial translation of electrochemical energy storage technologies. First, the principles of energy storage mechanisms and device design considerations are introduced. Then, organized by electrochemical energy storage technology, the advances in candidate materials and their path to commercialization and industrialization are discussed. Electrochemical energy storage technologies reviewed include rocking chair batteries, metal-air batteries, redox flow batteries, fuel cells, and supercapacitors. Electrochemical Energy Storage Technologies Beyond Li-ion Batteries is suitable for materials scientists and chemists in academia and industry. It may also be of interest to physicists and energy scientists and practitioners. Provides a thorough overview of candidate materials for electrochemical energy storage technologies, including batteries, fuel cells, and supercapacitors Summarizes fundamental principles of electrochemical energy storage such as energy storage mechanisms, device design considerations, and computational and characterization methods Discusses future opportunities and challenges of recycling of electrochemical energy storage technologies and non-lithium energy storage
Author: Zhengcheng Zhang
Publisher: Springer
ISBN: 3319154583
Category : Technology & Engineering
Languages : en
Pages : 710
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Book Description
This book updates the latest advancements in new chemistries, novel materials and system integration of rechargeable batteries, including lithium-ion batteries and batteries beyond lithium-ion and addresses where the research is advancing in the near future in a brief and concise manner. The book is intended for a wide range of readers from undergraduates, postgraduates to senior scientists and engineers. In order to update the latest status of rechargeable batteries and predict near research trend, we plan to invite the world leading researchers who are presently working in the field to write each chapter of the book. The book covers not only lithium-ion batteries but also other batteries beyond lithium-ion, such as lithium-air, lithium-sulfur, sodium-ion, sodium-sulfur, magnesium-ion and liquid flow batteries.
Author: K. Amine
Publisher: The Electrochemical Society
ISBN: 1607686325
Category : Science
Languages : en
Pages : 312
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Book Description
Author: Guangyuan Zheng
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
The emerging applications of electric vehicles (EV) and grid scale energy storage are pushing the limit of energy storage technologies. To meet the US Department of Energy (DOE)'s targets for EV batteries and grid storage, battery chemistries beyond the current lithium ion systems are required. Among the many new chemistries studied, lithium sulfur battery is one of the most promising technologies that could have high specific energy and low cost. In this thesis, I will examine the main challenges in lithium sulfur batteries and present my study on using nanoscale engineering approaches to address the problems of both the sulfur cathode and the lithium metal anode. Lithium sulfur battery has a theoretical specific energy of around 2600 Wh/kg, around 10 times that of the current lithium ion battery technology. The large abundance of sulfur also means that battery cost can be significantly reduced by replacing the expensive transition metals used in conventional lithium ion batteries. However, sulfur is a highly insulating material and the intermediate discharge products lithium polysulfides can easily dissolve into the electrolyte. In the first part of my study, I will describe my work on using nanostructure materials to improve the sulfur cathode performance. By using nanostructure design, sulfur can be embedded into nanoscale conductive matrix, which significantly improve the sulfur utilization and reduce the polysulfide dissolution. We demonstrated that high specific capacity of around 1400 mAh/g could be achieved using the hollow carbon nanofiber encapsulated sulfur cathode structure. I will also present my study on the interfacial properties in the sulfur cathode, their potential effect on the initial capacity decay and our solutions to address the problem. The change in binding strength between the sulfur cathode and the conductive carbon matrix was observed using ex-situ¬ TEM study. We tackle this problem by functionalizing the carbon surface with amphiphilic polymers that allow anchoring of the polar lithium sulfides species to the non-polar carbon surface. We also used a patterned surface to confirm this phenomenon, by demonstrating controlled spatial deposition of lithium sulfide. Based on the study, we fabricated a hybrid electrode consisting of metal oxide particles decorated carbon nanofiber current collectors, which show marked improvement in stabilizing the sulfur cathode performance. For the anode side, I will present my research on using nanoscale engineering approach to improve the lithium metal anode. Lithium metal has long been considered the "holy grail" in lithium battery research, due to its high specific capacity and the lowest potential among all lithium anode materials. However, the problems of lithium dendrite formation and low cycling Coulombic efficiency have prevented lithium metal anode from successful application. By introducing a nanoscale interfacial layer of interconnected hollow carbon spheres onto the lithium surface, we demonstrate that lithium dendrite formation can be largely suppressed at a practical current density and the cycling Coulombic efficiency significantly improved. Our work provides a new direction in addressing the long-standing lithium metal problems. I will also talk about the semi-liquid flow battery design for grid storage, by paring lithium polysulfide catholyte with lithium metal. The energy density and power density can be potentially decoupled in the semi-liquid flow batteries. The catholyte (lithium polysulfide solution) can be stored in an external tank and pumped into the battery chamber on demand. The system has a very high energy density of around 170 Wh/kg (190 Wh/L), with an impressive cycle life of more than 2400 cycles at constant capacity charging of 200 mAh/g.
Author: Katerina E. Aifantis
Publisher: John Wiley & Sons
ISBN: 3527350187
Category : Technology & Engineering
Languages : en
Pages : 404
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Book Description
Rechargeable Ion Batteries Highly informative and comprehensive resource providing knowledge on underlying concepts, materials, ongoing developments and the many applications of ion-based batteries Rechargeable Ion Batteries explores the concepts and the design of rechargeable ion batteries, including their materials chemistries, applications, stability, and novel developments. Focus is given on state-of-the-art Li-based batteries used for portable electronics and electric vehicles, while other emerging ion-battery technologies are also introduced. The text addresses innovative approaches by reviewing nanostructured anodes and cathodes that pave new ways for enhancing the electrochemical performance. The first three chapters are dedicated to the general concepts of electrochemical cells, enabling readers to understand all necessary concepts for batteries from a single book. The following chapter covers the exciting applications of lithium-ion and sodium-ion batteries, while the subsequent chapters on Li-battery components include new types of anodes, cathodes, and electrolytes that have been developed recently, complemented by an overview of designing mechanically stable ion-battery systems. The last three chapters summarize recent progress in lithium-sulfur, sodium-ion, magnesium-ion and zinc and emerging ion-battery technologies. In Rechargeable Ion Batteries, readers can expect to find specific information on: Electrochemical cells, primary batteries, secondary batteries, recycling of batteries, applications of lithium and sodium batteries Next-generation cathodes, anodes and electrolytes for secondary lithium-ion batteries, which allow for improved performance and safety Multiphysics modeling for predicting design criteria for next generation ion-insertion electrodes Developments in lithium-sulfur batteries, sodium-ion batteries, and future ion-battery technologies Rechargeable Ion Batteries provides informative and comprehensive coverage of the subject to interested researchers, academics, and professionals in various fields, including materials science, electrochemistry, physical chemistry, mechanics, engineering, recycling and industry including the battery manufacturers and supply chain ancillaries, automotive, aerospace, and marine sectors, energy storage installers and environmental stakeholders. Readers can easily acquire a base of knowledge on the subject while understanding future developments in the field.
Author: Jianmin Ma
Publisher: John Wiley & Sons
ISBN: 3527348581
Category : Technology & Engineering
Languages : en
Pages : 386
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Book Description
Battery Technologies A state-of-the-art exploration of modern battery technology In Battery Technologies: Materials and Components, distinguished researchers Dr. Jianmin Ma delivers a comprehensive and robust overview of battery technology and new and emerging technologies related to lithium, aluminum, dual-ion, flexible, and biodegradable batteries. The book offers practical information on electrode materials, electrolytes, and the construction of battery systems. It also considers potential approaches to some of the primary challenges facing battery designers and manufacturers today. Battery Technologies: Materials and Components provides readers with: A thorough introduction to the lithium-ion battery, including cathode and anode materials, electrolytes, and binders Comprehensive explorations of lithium-oxygen batteries, including battery systems, catalysts, and anodes Practical discussions of redox flow batteries, aqueous batteries, biodegradable batteries, and flexible batteries In-depth examinations of dual-ion batteries, aluminum ion batteries, and zinc-oxygen batteries Perfect for inorganic chemists, materials scientists, and electrochemists, Battery Technologies: Materials and Components will also earn a place in the libraries of catalytic and polymer chemists seeking a one-stop resource on battery technology.
