Engineered Nano Architectures As Advanced Anode Materials For Next Generation Lithium Ion Batteries

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Engineered Nano-architectures as Advanced Anode Materials for Next Generation Lithium Ion Batteries

Author : Fathy Mohamed Hassan
Publisher :
ISBN 13 :
Total Pages : 130 pages
Book Rating : 4.:/5 (926 download)

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Book Synopsis Engineered Nano-architectures as Advanced Anode Materials for Next Generation Lithium Ion Batteries by : Fathy Mohamed Hassan

Download or read book Engineered Nano-architectures as Advanced Anode Materials for Next Generation Lithium Ion Batteries written by Fathy Mohamed Hassan and published by . This book was released on 2014 with total page 130 pages. Available in PDF, EPUB and Kindle. Book excerpt: Li-ion batteries have a predominant market share as mobile energy storage devices, especially in consumer electronics. New concepts for electrode material designs are, however, necessary to boost their energy and power densities, and most importantly, the long term cycle stability. This will allow for these devices to gain widespread acceptance in electric vehicles, an area with immense market potential and environmental benefits. From a practical perspective, new electrode materials must be developed by simplistic, environmentally friendly and low cost processes. As a new class of electrode materials, mesoporous Sn/SnO2/Carbon composites with uniformly distributed Sn/SnO2 embedded within the carbon pore walls have been rationally designed and synthesized. These nanocomposites have been characterized by x-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), x-ray photoelectron spectroscopy (XPS), and tested as negative electrodes in a cell using lithium foil as the counter electrode. The inclusion of metallic Sn in SnO2/CMK3 resulted in a unique, ordered structure and provided a synergistic effect which resulted in an impressive initial reversible capacity of 799 mAh g-1. In addition, at a high current of 800 mAg-1, the heterogeneous structure was able to provide a stable capacity of 350 mAhg-1 and a retention capacity of ~ 670 mAh g-1 after 60 cycles. While Sn/SnO2 composites have been deemed very promising, Si materials boast improved energy storage capacities, inspiring us to investigate these materials as new anode structure. A novel one-pot synthesis for the sub-eutectic growth of (111) oriented Si nanowires on an in-situ formed nickel nanoparticle catalyst prepared from an inexpensive nickel nitrate precursor is developed. Anchoring the nickel nanoparticles to a simultaneously reduced graphene oxide support created synergy between the individual components of the c-SiNW-G composite, which greatly improved the reversible charge capacity and its retention at high current density when applied as an anode for a lithium-ion battery. The c-SiNW-G electrodes in a Li-ion battery achieved excellent high-rate performance, producing a stable reversible capacity of 550 mAh g-1 after 100 cycles at 6.8 A g-1 (78% of that at 0.1 A g-1). Thus, this process creates an important building block for a new wave of low cost silicon nanowire materials and a promising avenue for high rate Li-ion batteries. While excellent rate capability was obtained by using SiNW/graphene based material, simplifying the process may drive Si based materials to commercialization. A novel, economical flash heat treatment to fabricate silicon based electrodes is introduced to boost the performance and cycle capability of Li-ion batteries. The treatment results in a high mass fraction of Si, improved interfacial contact, synergistic SiO2/C coating and a conductive cellular network for improved electronic conductivity, as well as flexibility for stress compensation. The developed electrodes achieve first cycle efficiency of ~84% and a maximum charge capacity of 3525 mA h g-1, which is almost 84% of silicon's theoretical maximum. Furthermore, a stable reversible charge capacity of 1150 mA h g-1 at 1.2 A g-1 can be achieved over 500 cycles. Thus, the flash heat treatment method introduces a promising avenue for the production of industrially viable, next-generation Li-ion batteries. Even though we obtained a dramatic improvement to a treated electrode based on commercial silicon, we still need to boast the cycle stability and high areal capacity achieved by higher electrode loading. Thus, we report a scalable approach that relies on covalent binding commercially available Si nanoparticles (SiNP) to sulfur-doped graphene (SG) followed by shielding them with cyclized polyacrylonitrile. The covalent synergy led to improved material property that can deliver stable reversible capacity of 1033 mAh g-1 for more than 2000 cycles at a rate of 1 A g-1. The areal capacity was 3.5 mAh cm-2 at 0.1 A g-1, approaching the commercial demand. The spatial arrangement of Si after cycling reveals that it was confined in nanowires morphology. This reveals that the solid electrolyte interphase remains stable leading to superior cyclability. Our DFT calculations revealed covalent hybrid interaction between Si, S, and C leading to stable material configuration. Furthermore, the structure synergy facilitated lithium diffusion, which strongly supports our results. This simple, low cost, feasible, and safe approach provide new avenues for engineering electrode structure for enhanced performance.

Constructing three-dimensional architectures to design advanced anodes materials for sodium-ion batteries: from nanoscale to microscale

Download Constructing three-dimensional architectures to design advanced anodes materials for sodium-ion batteries: from nanoscale to microscale PDF Online Free

Author : Yu-Feng Sun
Publisher : OAE Publishing Inc.
ISBN 13 :
Total Pages : 33 pages
Book Rating : 4./5 ( download)

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Book Synopsis Constructing three-dimensional architectures to design advanced anodes materials for sodium-ion batteries: from nanoscale to microscale by : Yu-Feng Sun

Download or read book Constructing three-dimensional architectures to design advanced anodes materials for sodium-ion batteries: from nanoscale to microscale written by Yu-Feng Sun and published by OAE Publishing Inc.. This book was released on 2024-01-03 with total page 33 pages. Available in PDF, EPUB and Kindle. Book excerpt: Sodium-ion batteries (SIBs) are emerging as a possible substitute for lithium-ion batteries (LIBs) in low-cost and large-scale electrochemical energy storage systems owing to the lack of lithium resources. The properties of SIBs are correlated to the electrode materials, while the performance of electrode materials is significantly affected by the morphologies. In recent years, several kinds of anode materials involving carbon-based anodes, titanium-based anodes, conversion anodes, alloy-based anodes, and organic anodes have been systematically researched to develop high-performance SIBs. Nanostructures have huge specific surface areas and short ion diffusion pathways. However, the excessive solid electrolyte interface film and worse thermodynamic stability hinder the application of nanomaterials in SIBs. Thus, the strategies for constructing three-dimensional (3D) architectures have been developed to compensate for the flaws of nanomaterials. This review summarizes recent achievements in 3D architectures, including hollow structures, core-shell structures, yolk-shell structures, porous structures, and self-assembled nano/micro-structures, and discusses the relationship between the 3D architectures and sodium storage properties. Notably, the intention of constructing 3D architectures is to improve materials performance by integrating the benefits of various structures and components. The development of 3D architecture construction strategies will be essential to future SIB applications.

Nanostructured Materials for Next-Generation Energy Storage and Conversion

Author : Qiang Zhen
Publisher : Springer Nature
ISBN 13 : 3662586754
Total Pages : 472 pages
Book Rating : 4.6/5 (625 download)

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Book Synopsis Nanostructured Materials for Next-Generation Energy Storage and Conversion by : Qiang Zhen

Download or read book Nanostructured Materials for Next-Generation Energy Storage and Conversion written by Qiang Zhen and published by Springer Nature. This book was released on 2019-10-10 with total page 472 pages. Available in PDF, EPUB and Kindle. Book excerpt: Volume 3 of a 4-volume series is a concise, authoritative and an eminently readable and enjoyable experience related to lithium ion battery design, characterization and usage for portable and stationary power. Although the major focus is on lithium metal oxides or transition metal oxide as alloys, the discussion of fossil fuels is also presented where appropriate. This monograph is written by recognized experts in the field, and is both timely and appropriate as this decade will see application of lithium as an energy carrier, for example in the transportation sector. This Volume focuses on the fundamentals related to batteries using the latest research in the field of battery physics, chemistry, and electrochemistry. The research summarised in this book by leading experts is laid out in an easy-to-understand format to enable the layperson to grasp the essence of the technology, its pitfalls and current challenges in high-power Lithium battery research. After introductory remarks on policy and battery safety, a series of monographs are offered related to fundamentals of lithium batteries, including, theoretical modeling, simulation and experimental techniques used to characterize electrode materials, both at the material composition, and also at the device level. The different properties specific to each component of the batteries are discussed in order to offer tradeoffs between power and energy density, energy cycling, safety and where appropriate end-of-life disposal. Parameters affecting battery performance and cost, longevity using newer metal oxides, different electrolytes are also reviewed in the context of safety concerns and in relation to the solid-electrolyte interface. Separators, membranes, solid-state electrolytes, and electrolyte additives are also reviewed in light of safety, recycling, and high energy endurance issues. The book is intended for a wide audience, such as scientists who are new to the field, practitioners, as well as students in the STEM and STEP fields, as well as students working on batteries. The sections on safety and policy would be of great interest to engineers and technologists who want to obtain a solid grounding in the fundamentals of battery science arising from the interaction of electrochemistry, solid-state materials science, surfaces, and interfaces.

Advanced Anode Materials for Next Generation Lithium-Ion Batteries

Author : Yanjiao Frau Ma
Publisher :
ISBN 13 :
Total Pages : 180 pages
Book Rating : 4.:/5 (113 download)

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Book Synopsis Advanced Anode Materials for Next Generation Lithium-Ion Batteries by : Yanjiao Frau Ma

Download or read book Advanced Anode Materials for Next Generation Lithium-Ion Batteries written by Yanjiao Frau Ma and published by . This book was released on 2019 with total page 180 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Nanotechnology for Lithium-Ion Batteries

Author : Yaser Abu-Lebdeh
Publisher : Springer Science & Business Media
ISBN 13 : 1461446058
Total Pages : 288 pages
Book Rating : 4.4/5 (614 download)

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Book Synopsis Nanotechnology for Lithium-Ion Batteries by : Yaser Abu-Lebdeh

Download or read book Nanotechnology for Lithium-Ion Batteries written by Yaser Abu-Lebdeh and published by Springer Science & Business Media. This book was released on 2012-10-17 with total page 288 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book combines two areas of intense interest: nanotechnology, and energy conversion and storage devices. In particular, Li-ion batteries have enjoyed conspicuous success in many consumer electronic devices and their projected use in vehicles that will revolutionize the way we travel in the near future. For many applications, Li-ion batteries are the battery of choice. This book consolidates the scattered developments in all areas of research related to nanotechnology and lithium ion batteries.

Silicon Anode Systems for Lithium-Ion Batteries

Author : Prashant N. Kumta
Publisher : Elsevier
ISBN 13 : 0323851819
Total Pages : 536 pages
Book Rating : 4.3/5 (238 download)

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Book Synopsis Silicon Anode Systems for Lithium-Ion Batteries by : Prashant N. Kumta

Download or read book Silicon Anode Systems for Lithium-Ion Batteries written by Prashant N. Kumta and published by Elsevier. This book was released on 2021-09-10 with total page 536 pages. Available in PDF, EPUB and Kindle. Book excerpt: Silicon Anode Systems for Lithium-Ion Batteries is an introduction to silicon anodes as an alternative to traditional graphite-based anodes. The book provides a comprehensive overview including abundance, system voltage, and capacity. It provides key insights into the basic challenges faced by the materials system such as new configurations and concepts for overcoming the expansion and contraction related problems. This book has been written for the practitioner, researcher or developer of commercial technologies. Provides a thorough explanation of the advantages, challenge, materials science, and commercial prospects of silicon and related anode materials for lithium-ion batteries Provides insights into practical issues including processing and performance of advanced Si-based materials in battery-relevant materials systems Discusses suppressants in electrolytes to minimize adverse effects of solid electrolyte interphase (SEI) formation and safety limitations associated with this technology

Nanotechnology in Advanced Electrochemical Power Sources

Author : S. R. S. Prabaharan
Publisher : CRC Press
ISBN 13 : 9814241431
Total Pages : 382 pages
Book Rating : 4.8/5 (142 download)

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Book Synopsis Nanotechnology in Advanced Electrochemical Power Sources by : S. R. S. Prabaharan

Download or read book Nanotechnology in Advanced Electrochemical Power Sources written by S. R. S. Prabaharan and published by CRC Press. This book was released on 2014-10-24 with total page 382 pages. Available in PDF, EPUB and Kindle. Book excerpt: The challenge of providing adequate power on an indefinite basis without causing long-term damage to the environment requires a versatile means of energy conversion and storage. As such, electrical energy storage is becoming more vital today than at any time in human history. Electrochemical systems, such as batteries, supercapacitors, fuel cells, and photoelectrochemical cells, can help meet this objective. Future generations of rechargeable lithium batteries will be required to power portable electronic devices, store electricity from renewable sources, and serve as a vital component to pursuing electric mobility in the future to reduce fossil fuel demand and mitigate environmental issues. In this context, engineering of new materials, especially at the nanoscale, has become imperative to achieve enhanced energy and power density to meet the future challenges of energy storage. This book outlines the state of the art of nanoscale aspects of advanced energy storage devices, such as lithium-ion batteries, including microbatteries and electrochemical supercapacitors. It focuses on various fundamental issues related to device performance of various positive and negative electrode materials, with special reference to their nanoscale advantages. It also includes fundamentals and processing techniques with regard to synthesis, characterization, physical, and electrochemical properties, and applications of nanoscale materials pertaining to advanced electrochemical power sources. A variety of advanced nanomaterials, such as transition metal oxides, phosphates, silicates, and conversion electrodes, together with some special nanomaterials such as carbon nanotubes, nanorods, and mesoporous carbons are discussed by many notable authorities in the field.

Materials for Lithium-Ion Batteries

Author : Christian Julien
Publisher : Springer Science & Business Media
ISBN 13 : 9780792366508
Total Pages : 658 pages
Book Rating : 4.3/5 (665 download)

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Book Synopsis Materials for Lithium-Ion Batteries by : Christian Julien

Download or read book Materials for Lithium-Ion Batteries written by Christian Julien and published by Springer Science & Business Media. This book was released on 2000-10-31 with total page 658 pages. Available in PDF, EPUB and Kindle. Book excerpt: A lithium-ion battery comprises essentially three components: two intercalation compounds as positive and negative electrodes, separated by an ionic-electronic electrolyte. Each component is discussed in sufficient detail to give the practising engineer an understanding of the subject, providing guidance on the selection of suitable materials in actual applications. Each topic covered is written by an expert, reflecting many years of experience in research and applications. Each topic is provided with an extensive list of references, allowing easy access to further information. Readership: Research students and engineers seeking an expert review. Graduate courses in electrical drives can also be designed around the book by selecting sections for discussion. The coverage and treatment make the book indispensable for the lithium battery community.

Nano-engineered Electrode Materials for Advanced Lithium-ion Batteries

Author : Yun Xu
Publisher :
ISBN 13 :
Total Pages : 302 pages
Book Rating : 4.:/5 (94 download)

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Book Synopsis Nano-engineered Electrode Materials for Advanced Lithium-ion Batteries by : Yun Xu

Download or read book Nano-engineered Electrode Materials for Advanced Lithium-ion Batteries written by Yun Xu and published by . This book was released on 2014 with total page 302 pages. Available in PDF, EPUB and Kindle. Book excerpt: Lithium ion batteries are currently the energy source of choice for small mobile devise like cell phones, laptops, owning to their balance of energy density with power density compared to other energy storage devices, like nickel cadmium batteries. At present there is great urgent need to replace gasoline with environmental healthy electricity. Li-ion batteries became a great alternative as an energy carrier for electric and hybrid electric vehicles. The ever increased power density and the life time of the battery are highly desirable in the application. So there is a great space for the improvement of lithium ion batteries. Thus the focus of the study is put on increasing the power density and cycle life of batteries. Performance of batteries could be improved by means of synthesizing composites, reduce interface resistance, building two dimensional and three dimensional architecture, etc. High performance anode materials such as two dimensional MoO2/graphite oxide composite, three dimensional anode material Co3O4 on nickel foam as well were successfully developed and showed excellent performance. The composites show better performance than each component due to the synergistic effects between the components. By taking advantage of the two-dimensional and three-dimensional structure, the electrodes exhibited stable output and high power density, as been discussed in chapter 4 and chapter 5. Meanwhile, cathode materials with high stability and high rate capability were synthesized, such as LiMn2O4, V2O5. By doping cations into cathodes, conductivity and structural stability could be improved. Also the electronic structure could also been changed due to the introduction of the cations with different valance. The cathodes were proved to be both stable and fast response to current, as been discussed in chapter 6 and chapter 7. Another way of increase power density is to increase the potential of battery. This is achieved by increase the potential of cathode amterials. Also by modify the surface the high potential electrode, we successfully alleiviate the problem of surface consumption of electrolyte. Nickel doped LiMn2O4 (LiMn1.6Ni0.4O4) is shown to have both high power density and stability. By having higher concentration of Mn3+ ions at surface, we have solve the problem of surface oxidation of electrolyte. Also taking advantage of carbon coating, the dissolution of Mn2+ into electrolyte is also prohibited while the electronic conductivity is increase, as been discussed in chapter 8.1. A new concept of bat-capacitor was brought out too by taking advantage of fast charge nd discharge of capacitor. By combining battery and capacitor, capacitor can serve as lithium ions buffer and reservoir before they can diffuse into battery. Just by simply annealing amorphous materials and forming a partially crystallized electrode, which can be treated as complicated system of nanobatteries and nanocapacitors, as been discussed in chapter 9.

Theoretical Study on Graphite and Lithium Metal as Anode Materials for Next-Generation Rechargeable Batteries

Author : Gabin Yoon
Publisher : Springer Nature
ISBN 13 : 9811389144
Total Pages : 75 pages
Book Rating : 4.8/5 (113 download)

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Book Synopsis Theoretical Study on Graphite and Lithium Metal as Anode Materials for Next-Generation Rechargeable Batteries by : Gabin Yoon

Download or read book Theoretical Study on Graphite and Lithium Metal as Anode Materials for Next-Generation Rechargeable Batteries written by Gabin Yoon and published by Springer Nature. This book was released on 2022-07-08 with total page 75 pages. Available in PDF, EPUB and Kindle. Book excerpt: This thesis describes in-depth theoretical efforts to understand the reaction mechanism of graphite and lithium metal as anodes for next-generation rechargeable batteries. The first part deals with Na intercalation chemistry in graphite, whose understanding is crucial for utilizing graphite as an anode for Na-ion batteries. The author demonstrates that Na ion intercalation in graphite is thermodynamically unstable because of the unfavorable Na-graphene interaction. To address this issue, the inclusion of screening moieties, such as solvents, is suggested and proven to enable reversible Na-solvent cointercalation in graphite. Furthermore, the author provides the correlation between the intercalation behavior and the properties of solvents, suggesting a general strategy to tailor the electrochemical intercalation chemistry. The second part addresses the Li dendrite growth issue, which is preventing practical application of Li metal anodes. A continuum mechanics study considering various experimental conditions reveals the origins of irregular growth of Li metal. The findings provide crucial clues for developing effective counter strategies to control the Li metal growth, which will advance the application of high-energy-density Li metal anodes.

Nano-architectures for Next-Generation Energy Storage Technologies

Author : J. Xiao
Publisher : The Electrochemical Society
ISBN 13 : 1607686031
Total Pages : 27 pages
Book Rating : 4.6/5 (76 download)

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Book Synopsis Nano-architectures for Next-Generation Energy Storage Technologies by : J. Xiao

Download or read book Nano-architectures for Next-Generation Energy Storage Technologies written by J. Xiao and published by The Electrochemical Society. This book was released on 2015-04-30 with total page 27 pages. Available in PDF, EPUB and Kindle. Book excerpt:

Nanoscale Technology for Advanced Lithium Batteries

Author : Tetsuya Osaka
Publisher : Springer Science & Business Media
ISBN 13 : 1461486750
Total Pages : 275 pages
Book Rating : 4.4/5 (614 download)

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Book Synopsis Nanoscale Technology for Advanced Lithium Batteries by : Tetsuya Osaka

Download or read book Nanoscale Technology for Advanced Lithium Batteries written by Tetsuya Osaka and published by Springer Science & Business Media. This book was released on 2013-11-11 with total page 275 pages. Available in PDF, EPUB and Kindle. Book excerpt: The unfortunate and serious accident at the nuclear power plants in Fukushima, Japan caused by the earthquake and tsunami in March 2011 dealt Japan a serious blow. Japan was nearly deprived of electric power when in response to the accident all nuclear reactors in Japan were shut down. This shortage further accelerated the introduction of renewable energies. This book surveys the new materials and approaches needed to use nanotechnology to introduce the next generation of advanced lithium batteries, currently the most promising energy storage devices available. It provides an overview of nanotechnology for lithium batteries from basic to applied research in selected high technology areas. The book especially focuses on near-term and future advances in these fields. All contributors to this book are expert researchers on lithium batteries.

Graphene and Carbon Nanotubes for Advanced Lithium Ion Batteries

Author : Stelbin Peter Figerez
Publisher : CRC Press
ISBN 13 : 042978483X
Total Pages : 176 pages
Book Rating : 4.4/5 (297 download)

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Book Synopsis Graphene and Carbon Nanotubes for Advanced Lithium Ion Batteries by : Stelbin Peter Figerez

Download or read book Graphene and Carbon Nanotubes for Advanced Lithium Ion Batteries written by Stelbin Peter Figerez and published by CRC Press. This book was released on 2018-12-07 with total page 176 pages. Available in PDF, EPUB and Kindle. Book excerpt: This title covers the fundamentals of carbon nanomaterials in a logical and clear manner to make concepts accessible to researchers from different disciplines. It summarizes in a comprehensive manner recent technological and scientific accomplishments in the area of carbon nanomaterials and their application in lithium ion batteries The book also addresses all the components anodes, cathodes and electrolytes of lithium ion battery and discusses the technology of lithium ion batteries that can safely operate at high temperature.

Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium–Sulfur Batteries

Download Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium–Sulfur Batteries PDF Online Free

Author : Guangmin Zhou
Publisher : Springer
ISBN 13 : 9811034060
Total Pages : 131 pages
Book Rating : 4.8/5 (11 download)

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Book Synopsis Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium–Sulfur Batteries by : Guangmin Zhou

Download or read book Design, Fabrication and Electrochemical Performance of Nanostructured Carbon Based Materials for High-Energy Lithium–Sulfur Batteries written by Guangmin Zhou and published by Springer. This book was released on 2017-02-09 with total page 131 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book focuses on the design, fabrication and applications of carbon-based materials for lithium-sulfur (Li-S) batteries. It provides insights into the localized electrochemical transition of the “solid-solid” reaction instead of the “sulfur-polysulfides-lithium sulfides” reaction through the desolvation effect in subnanometer pores; demonstrates that the dissolution/diffusion of polysulfide anions in electrolyte can be greatly reduced by the strong binding of sulfur to the oxygen-containing groups on reduced graphene oxide; manifests that graphene foam can be used as a 3D current collector for high sulfur loading and high sulfur content cathodes; and presents the design of a unique sandwich structure with pure sulfur between two graphene membranes as a very simple but effective approach to the fabrication of Li-S batteries with ultrafast charge/discharge rates and long service lives. The book offers an invaluable resource for researchers, scientists, and engineers in the field of energy storage, providing essential insights, useful methods, and practical ideas that can be considered for the industrial production and future application of Li-S batteries.

Nanostructured Lithium-ion Battery Materials

Author : Sabu Thomas
Publisher : Elsevier
ISBN 13 : 0443133395
Total Pages : 0 pages
Book Rating : 4.4/5 (431 download)

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Book Synopsis Nanostructured Lithium-ion Battery Materials by : Sabu Thomas

Download or read book Nanostructured Lithium-ion Battery Materials written by Sabu Thomas and published by Elsevier. This book was released on 2024-10-01 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Nanostructured Lithium-ion Battery Materials: Synthesis and Applications provides a detailed overview of nanostructured materials for application in Li-ion batteries, supporting improvements in materials selection and battery performance. The book begins by presenting the fundamentals of Lithium-ion batteries, including electrochemistry and reaction mechanism, advantages and disadvantages of Li-ion batteries, and characterization methods. Subsequent sections provide in-depth coverage of a range of nanostructured materials as applied to cathodes, electrolytes, separators, and anodes. Finally, other key aspects are discussed, including industrial scale-up, safety, life cycle analysis, recycling, and future research trends. This is a valuable resource for researchers, faculty, and advanced students across nanotechnology, materials science, battery technology, energy storage, chemistry, applied physics, chemical engineering, and electrical engineering. In an industrial setting, this book will be of interest to scientists, engineers, and R&D professionals working with advanced materials for Li-ion batteries and other energy storage applications. Introduces fundamental of Lithium-ion batteries, electrochemistry, and characterization methods Offers in-depth information on nanostructured cathode, electrolyte, separator, and anode materials Addresses lab to industry challenges, safety, lifecycle analysis, recycling, and future opportunities

Nanomaterials in Advanced Batteries and Supercapacitors

Author : Kenneth I. Ozoemena
Publisher : Springer
ISBN 13 : 3319260820
Total Pages : 576 pages
Book Rating : 4.3/5 (192 download)

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Book Synopsis Nanomaterials in Advanced Batteries and Supercapacitors by : Kenneth I. Ozoemena

Download or read book Nanomaterials in Advanced Batteries and Supercapacitors written by Kenneth I. Ozoemena and published by Springer. This book was released on 2016-07-18 with total page 576 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides an authoritative source of information on the use of nanomaterials to enhance the performance of existing electrochemical energy storage systems and the manners in which new such systems are being made possible. The book covers the state of the art of the design, preparation, and engineering of nanoscale functional materials as effective catalysts and as electrodes for electrochemical energy storage and mechanistic investigation of electrode reactions. It also provides perspectives and challenges for future research. A related book by the same editors is: Nanomaterials for Fuel Cell Catalysis.

Lithium metal stabilization for next-generation lithium-based batteries: from fundamental chemistry to advanced characterization and effective protection

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Author : Yu Yan
Publisher : OAE Publishing Inc.
ISBN 13 :
Total Pages : 32 pages
Book Rating : 4./5 ( download)

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Book Synopsis Lithium metal stabilization for next-generation lithium-based batteries: from fundamental chemistry to advanced characterization and effective protection by : Yu Yan

Download or read book Lithium metal stabilization for next-generation lithium-based batteries: from fundamental chemistry to advanced characterization and effective protection written by Yu Yan and published by OAE Publishing Inc.. This book was released on 2023-01-11 with total page 32 pages. Available in PDF, EPUB and Kindle. Book excerpt: Lithium (Li) metal-based rechargeable batteries hold significant promise to meet the ever-increasing demands for portable electronic devices, electric vehicles and grid-scale energy storage, making them the optimal alternatives for next-generation secondary batteries. Nevertheless, Li metal anodes currently suffer from major drawbacks, including safety concerns, capacity decay and lifespan degradation, which arise from uncontrollable dendrite growth, notorious side reactions and infinite volume variation, thereby limiting their current practical application. Numerous critical endeavors from different perspectives have been dedicated to developing highly stable Li metal anodes. Herein, a comprehensive overview of Li metal anodes regarding fundamental mechanisms, scientific challenges, characterization techniques, theoretical investigations and advanced strategies is systematically presented. First, the basic working principles of Li metal-based batteries are introduced. Specific attention is then paid to the fundamental understanding of and challenges facing Li metal anodes. Accordingly, advanced characterization approaches and theoretical computations are introduced to understand the fundamental mechanisms of dendrite growth and parasitic reactions. Recent key progress in Li anode protection is then comprehensively summarized and categorized to generate an overview of the respective superiorities and limitations of the various strategies. Furthermore, this review concludes the remaining obstacles and potential research directions for inspiring the innovation of Li metal anodes and endeavors to accomplish the practical application of next-generation Li-based batteries.