Correlating Long Term Lithium Ion Battery Performance With Solid Electrolyte Interphase Sei Layer Properties

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Correlating Long-term Lithium Ion Battery Performance with Solid Electrolyte Interphase (SEI) Layer Properties

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Author : Seong Jin An
Publisher :
ISBN 13 :
Total Pages : 244 pages
Book Rating : 4.:/5 (15 download)

Book Synopsis Correlating Long-term Lithium Ion Battery Performance with Solid Electrolyte Interphase (SEI) Layer Properties by : Seong Jin An

Download or read book Correlating Long-term Lithium Ion Battery Performance with Solid Electrolyte Interphase (SEI) Layer Properties written by Seong Jin An and published by . This book was released on 2017 with total page 244 pages. Available in PDF, EPUB and Kindle. Book excerpt: This study was conducted to understand effects of some of key factors (i.e., anode surface properties, formation cycling conditions, and electrolyte conditions) on solid electrolyte interphase (SEI) formation in lithium ion batteries (LIBs) and the battery cycle life. The SEI layer passivates electrode surfaces and prevents electron transfer and electrolyte diffusion through it while allowing lithium ion diffusion, which is essential for stable reversible capacities. It also influences initial capacity loss, self-discharge, cycle life, rate capability and safety. Thus, SEI layer formation and electrochemical stability are primary topics in LIB development. This research involves experiments and discussions on key factors (graphite surface properties, electrolyte volume, and formation cycle) affecting SEI formation. For the graphite anode surface property study, ultraviolet (UV) light was applied to battery electrodes for the first time to improve the SEI and cycle life. UV treatment for 40 minutes resulted in the highest capacity retention and the lowest resistance after the cycle life testing. Anode analysis showed changes in surface chemistry and wetting after the UV treatment. It also showed increases in solvent products and decreases in salt products on the SEI surface when UV-treated anodes were used. XPS analysis showed that UV light decomposed polyvinylidene fluoride (binder) but helped to increase the oxygen level on graphite, which, resulted in a thin SEI layer, low resistance, and eventually high capacity retention. For the formation cycling condition study, a fast SEI formation protocol was proposed. The protocol involved more (shallow) charge-discharge cycles between 3.9 V and 4.2 V and fewer (full depth of discharge) cycles below 3.9 V. It improved SEI and capacity retention and shortened formation time by 6 times or more without compromising cell performance. To understand effects of electrolyte conditions, electrolyte volumes were controlled in full cells. A minimum electrolyte volume factor of 1.9 or 3 times the total pore volume of cell components (cathode, anode, and separator) was needed for long-term cyclability and low impedance of cells consisting of graphite anode or 15 weight percent Si-graphite anode, respectively. Less electrolyte resulted in an increase of the measured Ohmic resistances.

Lithium-ion Batteries

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Author : Perla B. Balbuena
Publisher : World Scientific
ISBN 13 : 1860943624
Total Pages : 424 pages
Book Rating : 4.8/5 (69 download)

Book Synopsis Lithium-ion Batteries by : Perla B. Balbuena

Download or read book Lithium-ion Batteries written by Perla B. Balbuena and published by World Scientific. This book was released on 2004 with total page 424 pages. Available in PDF, EPUB and Kindle. Book excerpt: This invaluable book focuses on the mechanisms of formation of a solid-electrolyte interphase (SEI) on the electrode surfaces of lithium-ion batteries. The SEI film is due to electromechanical reduction of species present in the electrolyte. It is widely recognized that the presence of the film plays an essential role in the battery performance, and its very nature can determine an extended (or shorter) life for the battery. In spite of the numerous related research efforts, details on the stability of the SEI composition and its influence on the battery capacity are still controversial. This book carefully analyzes and discusses the most recent findings and advances on this topic.

The State of Understanding of the Lithium-ion-battery Graphite Solid Electrolyte Interphase (SEI) and Its Relationship to Formation Cycling

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Author :
Publisher :
ISBN 13 :
Total Pages : 25 pages
Book Rating : 4.:/5 (951 download)

Book Synopsis The State of Understanding of the Lithium-ion-battery Graphite Solid Electrolyte Interphase (SEI) and Its Relationship to Formation Cycling by :

Download or read book The State of Understanding of the Lithium-ion-battery Graphite Solid Electrolyte Interphase (SEI) and Its Relationship to Formation Cycling written by and published by . This book was released on 2016 with total page 25 pages. Available in PDF, EPUB and Kindle. Book excerpt: An in-depth review is presented on the science of lithium-ion battery (LIB) solid electrolyte interphase (SEI) formation on the graphite anode, including structure, morphology, chemical composition, electrochemistry, formation mechanism, and LIB formation cycling. During initial operation of LIBs, the SEI layer forms on the graphite surfaces, the most commonly used anode material, due to side reactions with the electrolyte solvent/salt at low electro-reduction potentials. It is accepted that the SEI layer is essential to the long-term performance of LIBs, and it also has an impact on its initial capacity loss, self-discharge characteristics, cycle life, rate capability, and safety. While the presence of the anode SEI layer is vital, it is difficult to control its formation and growth, as the chemical composition, morphology, and stability depend on several factors. These factors include the type of graphite, electrolyte composition, electrochemical conditions, and cell temperature. Thus, SEI layer formation and electrochemical stability over long-term operation should be a primary topic of future investigation in the development of LIB technology. We review the progression of knowledge gained about the anode SEI, from its discovery in 1979 to the current state of understanding, and covers its formation process, differences in the chemical and structural makeup when cell materials and components are varied, methods of characterization, and associated reactions with the liquid electrolyte phase. It also discusses the relationship of the SEI layer to the LIB formation step, which involves both electrolyte wetting and subsequent slow charge-discharge cycles to grow the SEI.

Lithium-ion Batteries: Solid-electrolyte Interphase

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Author : Perla B Balbuena
Publisher : World Scientific
ISBN 13 : 1783260963
Total Pages : 424 pages
Book Rating : 4.7/5 (832 download)

Book Synopsis Lithium-ion Batteries: Solid-electrolyte Interphase by : Perla B Balbuena

Download or read book Lithium-ion Batteries: Solid-electrolyte Interphase written by Perla B Balbuena and published by World Scientific. This book was released on 2004-05-07 with total page 424 pages. Available in PDF, EPUB and Kindle. Book excerpt: This invaluable book focuses on the mechanisms of formation of a solid-electrolyte interphase (SEI) on the electrode surfaces of lithium-ion batteries. The SEI film is due to electrochemical reduction of species present in the electrolyte. It is widely recognized that the presence of the film plays an essential role in the battery performance, and its very nature can determine an extended (or shorter) life for the battery. In spite of the numerous related research efforts, details on the stability of the SEI composition and its influence on the battery capacity are still controversial. This book carefully analyzes and discusses the most recent findings and advances on this topic./a

The Development of High Energy Storage Capacity Li-ion Battery Anode Material and Quantitative Analysis of Solid Electrolyte Interphase

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Author : Xinyue Zhang
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (138 download)

Book Synopsis The Development of High Energy Storage Capacity Li-ion Battery Anode Material and Quantitative Analysis of Solid Electrolyte Interphase by : Xinyue Zhang

Download or read book The Development of High Energy Storage Capacity Li-ion Battery Anode Material and Quantitative Analysis of Solid Electrolyte Interphase written by Xinyue Zhang and published by . This book was released on 2023 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: In the domain of modern lithium-ion batteries, the anode material plays a critical role in ensuring safe and reliable storage of the battery's capacity for efficient rechargeability. However, the commercial graphite material currently utilized is constrained by its limited volumetric and gravimetric capacity, as well as its proximity to Li plating hazards. With the growing demand for increased energy storage capacity and power density, there is a significant focus on exploring new electrode materials that offer higher specific and areal capacity, scalable synthesis methods, faster charging capabilities, improved safety standards, stable cycling performance, and lower cost. Also, with the development of microscopic techniques, the knowledge gap between battery performance and microscopic changings in cell configuration, such as solid-electrolyte interphase, can be further investigated. This works aims to explore the relevant criteria through the examination of surface-modified (graphitic carbon coated) silicon as a potential anode material and the investigation of a multifunctional solid electrolyte interface (SEI) as a solid-state electrolyte. The primary objective is to advance the understanding of these key components and their interactions, ultimately driving innovation in the field of high-performance batteries. Throughout this thesis, the cyclability of bare Si anode is improved and the electrochemical properties of SEI can be quantitatively measured and correlated to battery performance.

Hard X-ray Photoelectron Spectroscopy (HAXPES)

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Author : Joseph Woicik
Publisher : Springer
ISBN 13 : 3319240439
Total Pages : 576 pages
Book Rating : 4.3/5 (192 download)

Book Synopsis Hard X-ray Photoelectron Spectroscopy (HAXPES) by : Joseph Woicik

Download or read book Hard X-ray Photoelectron Spectroscopy (HAXPES) written by Joseph Woicik and published by Springer. This book was released on 2015-12-26 with total page 576 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides the first complete and up-to-date summary of the state of the art in HAXPES and motivates readers to harness its powerful capabilities in their own research. The chapters are written by experts. They include historical work, modern instrumentation, theory and applications. This book spans from physics to chemistry and materials science and engineering. In consideration of the rapid development of the technique, several chapters include highlights illustrating future opportunities as well.

DESIGN STABLE SOLID-ELECTROLYTE INTERPHASE FOR ANODES IN RECHARGEABLE LITHIUM BATTERIES.

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Author : Yue Gao
Publisher :
ISBN 13 :
Total Pages : pages
Book Rating : 4.:/5 (18 download)

Book Synopsis DESIGN STABLE SOLID-ELECTROLYTE INTERPHASE FOR ANODES IN RECHARGEABLE LITHIUM BATTERIES. by : Yue Gao

Download or read book DESIGN STABLE SOLID-ELECTROLYTE INTERPHASE FOR ANODES IN RECHARGEABLE LITHIUM BATTERIES. written by Yue Gao and published by . This book was released on 2018 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: Solid-electrolyte interphase (SEI) is a nanoscale composite layer of organic and inorganic lithium (Li) salts formed on the electrode surface by electrolyte decomposition. It is ionically conductive and electrically insulating, thus allowing facile Li-ion transport and preventing further electrolyte decomposition. Owing to these features, SEI stability is crucial to the performance of rechargeable Li batteries. Unfortunately, SEI layer are unstable for most advanced battery materials, including high-capacity anodes materials (e.g., silicon (Si) and Li) in liquid electrolyte and Li anodes in solid electrolytes (e.g., Li10GeP2S12 (LGPS)). An unstable SEI layer may cause poor battery performance including consumption of active materials and electrolyte, capacity fading, resistance increase., etc. The structure and property of SEI have generally eluded rational control since its formation and growth processes involve a series of complex and competitive electrochemical reactions. The main efforts to addressing this issue have been made on the development of new electrolyte systems to form alternative SEI layers and preformed artificial SEI layers on the electrode surface to replace the electrolyte-derived SEI.This dissertation focuses on intrinsically regulating the chemical composition and nanostructure of SEI for advanced battery materials in conventional electrolyte systems, which enables not only optimized chemical and physical properties of SEI but improved battery performance. This is realized by developing chemical and electrochemical reactive materials and allowing them to participate in the SEI formation. These materials can contribute functional components in the SEI layer and therefore alter the structure and property of the SEI deliberately. The design of functional material is based on the requirement of SEI layers for different anodes. In Chapters 2 and 3, I presented approaches to manipulating the formation process, chemical composition, and morphology of SEI for nano-sized and micro-sized Si anodes, respectively. The SEI layers were fabricated through a covalent anchoring of multiple functional components onto the Si surface, followed by electrochemical decomposition of the functional components and conventional electrolyte. We showed that to covalently bond organic oligomeric species at the surface of nano-sized Si anodes can effectively increase its SEI flexibility and realized an intimate contact between SEI and Si surface (Chapter 2). In the case of micro-sized Si anodes, we reported that to covalently bond a functional salt, N-methyl-N-propyl pyrrolidinium bis(fluorosulfonyl)imide (PYR13FSI), at the surface of micro-sized Si anodes can effectively stabilize the interface and SEI (Chapter 3). In Chapters 4 and 5, we designed chemically and electrochemically active organic polymer, namely poly((N-2,2-dimethyl-1,3-dioxolane-4-methyl)-5-norbornene-exo-2,3-dicarboximide), and polymeric composite containing poly(vinylsulfonyl fluoride-ran-2-vinyl-1,3-dioxolane) and graphene oxide (GO) nanosheets to alter SEI formation process and regulate the composition and nanostructure of SEI for Li metal anodes. The reactive organic polymer and polymeric composite can generate stable SEI layers in situ by reacting with Li to occupy surface sites and then electrochemically decomposing to form nanoscale SEI components. The formed SEI layers presented excellent surface passivation, homogeneity, and mechanical strength. Using the polymer, we can implant polymeric ether species in the electrolyte-derived SEI, enabling improved SEI flexibility and homogeneity. In the case of polymeric composite, the SEI is mainly generated by the composite instead of electrolyte. In this way, we realized an intrinsic control of SEI structure and property. The formed SEI presented excellent homogeneity, mechanical strength, ionic conductivity, and surface passivation.In Chapter 6, we reported a novel approach based on the use of a nanocomposite consisting of organic elastomeric salts (LiO-(CH2O)n-Li) and inorganic nanoparticle salts (LiF, -NSO2-Li, Li2O), which serve as an interphase to protect Li10GeP2S12 (LGPS), a highly conductive but reducible SSE. The nanocomposite is formed in situ on Li via the electrochemical decomposition of a liquid electrolyte, therefore possessing excellent chemical and electrochemical stability, affinity for Li and LGPS, and limited interfacial resistance. We concluded this dissertation work in Chapter 7 and briefly discussed the possible future work.

Lithium Ion Batteries

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Author : Masataka Wakihara
Publisher : John Wiley & Sons
ISBN 13 : 3527611983
Total Pages : 261 pages
Book Rating : 4.5/5 (276 download)

Book Synopsis Lithium Ion Batteries by : Masataka Wakihara

Download or read book Lithium Ion Batteries written by Masataka Wakihara and published by John Wiley & Sons. This book was released on 2008-11-21 with total page 261 pages. Available in PDF, EPUB and Kindle. Book excerpt: Rechargeable Batteries with high energy density are in great demand as energy sources for various purposes, e.g. handies, zero emission electric vehicles, or load leveling in electric power. Lithium batteries are the most promising to fulfill such needs because of their intrinsic discharbe voltage with relatively light weight. This volume has been conceived keeping in mind selected fundamental topics together with the characteristics of the lithium ion battery on the market. It is thus a comprehensive overview of the new challenges facing the further development of lithium ion batteries from the standpoint of both materials science and technology. It will be useful for any scientist involved in the research and development of batteries in academia and industry, and also for graduate students entering the field, since it covers important topics from both fundamental and application points of view.

The Impact of Polymer Electrolyte Properties on Lithium-Ion Batteries

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Author : Nacer Badi
Publisher : Eliva Press
ISBN 13 : 9789994982172
Total Pages : 0 pages
Book Rating : 4.9/5 (821 download)

Book Synopsis The Impact of Polymer Electrolyte Properties on Lithium-Ion Batteries by : Nacer Badi

Download or read book The Impact of Polymer Electrolyte Properties on Lithium-Ion Batteries written by Nacer Badi and published by Eliva Press. This book was released on 2022-08-23 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: In this review, different types of electrolytes and their electrical and mechanical properties have been reported and studied to evaluate their effect on LIB performance. It was noticed that the electrolyte component and solvent in polymer electrolytes have a great influence on the ionic conductivity, Li+ migration, interfacial contact between electrolyte and electrode, mechanical properties, and the performance of the entire battery. The morphology of incorporated additive materials (nanoparticles, nanowires, nanofillers, salt, etc.) may well contribute to the amelioration of the ion transport pathway, which raises the lithium-ion conductivity. A basic understanding of the chemical reaction routes and the electrolyte structure would facilitate innovation in the battery. The structural, electrochemical, and mechanical properties of new promising materials should be investigated in advance for application in advanced lithium-ion batteries. The electrochemical behavior is inextricably related to the structure. IL-based solid polymer electrolytes appear as a promising material for long-term lithium-ion batteries despite showing low ionic conductivity but exhibiting more advantages than conventional carbonate electrolytes such as good safety, stability, good electrochemical performance, good mechanical stability, and enhanced energy density. Since solid electrolytes exhibit low ionic conductivity, ILs used in SPEs increased their conductivity. In a battery, porous materials appear to offer good properties in terms of lithium ionic conductivity, with no leakage and low interface resistance, and gel-based LIBs demonstrate a good working performance, long cycling life, and high energy density. Good polymer electrolytes need to be highly conductive, safe, highly mechanically and thermally stable, and easy for film formation.

Investigation of Electrochemical Performance and Synergy Mechanisms in Lithium-Ion Capacitor and Hybrid Lithium-Ion Capacitor Devices

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Author : Roya Naderi
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (134 download)

Book Synopsis Investigation of Electrochemical Performance and Synergy Mechanisms in Lithium-Ion Capacitor and Hybrid Lithium-Ion Capacitor Devices by : Roya Naderi

Download or read book Investigation of Electrochemical Performance and Synergy Mechanisms in Lithium-Ion Capacitor and Hybrid Lithium-Ion Capacitor Devices written by Roya Naderi and published by . This book was released on 2020 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: While the electrochemical energy storage systems are paving their ways to solve the existing theoretical energy and power challenges, alternative cell chemistries are highly desirable. Lithium-Ion Capacitors (LIC) and Hybrid Lithium-Ion Capacitors (HLIC) incorporate the fundamental properties of intercalation/deintercalation-based Lithium-Ion Battery (LIB) materials and adsorption/desorption-based Electric Double Layer Capacitor (EDLC) materials. The combination of battery and capacitor components assist in bridging the gap between the high power-low energy EDLCs, and high energy-low power LIBs. The presence of the battery-like material is essential for providing energy in a sustained period of time; however, these materials impose long-term capacity fade based on their extent of utilization during the redox reactions. In this report, initially, the importance of a balanced design for the anode to cathode capacity ratio in the LIC consisting of Activated Carbon (AC) cathode and Hard Carbon (HC) anode was studied. We showed that increasing the HC:AC capacity ratio from 1.1. to 3 promoted higher capacity retention at both low and high current rates (C-rates). Also, the EIS characterization at different State of Charges (SOCs) was conducted to help us elucidate the Lithium-ion (Li+) kinetics inside the LICs with different HC:AC capacity ratios. The finding from the Electrochemical Impedance Spectroscopy (EIS) characteristics was further verified using the 3-electrode galvanostatic tests and showed a direct correlation between the HC:AC capacity ratio and HC's degree of utilization. It was demonstrated that battery-like HC anode can maintain better long-term capacity retention, EIS characteristics, and potential swings if its capacity ratio is at least three times larger than that of the AC cathode. Furthermore, the anode/cathode matching capacity technique was used in a HLIC based on battery-like Lithium Ferro Phosphate (LiFePO4 abbreviated as LFP) and highly porous capacitor-like AC hybrid cathode and HC anode. Investigating the impedance characteristics of the HLIC allowed us to gain a better understanding of the synergies between the AC-LFP composite materials. In particular, different active materials dominated the impedance response of the hybrid cell at different voltages, highlighting the need for analyzing individual components' contributions. The use of the Lithium metal electrode (Li-metal) in half-cells enabled the quantitative measurements of the counter-electrode. However, our results indicated that the presence of the Li-metal perturbed the EIS response due to the continuous reconstruction of the Solid Electrolyte Interphase (SEI) layer at different SOCs. Using the aforementioned capacity design, a novel EIS measurement approach based on full-cells was introduced, where anode to cathode capacity ratio was accurately designed to minimize or maximize anode's contribution to the cell impedance. Namely, the Li-metal in half-cell was replaced by a carbon-based anode that only operated in its pre-deintercalation potential region. We demonstrated that the absence of the redox reactions in this region allowed for the HC anode to act as a neutral electrode. Moreover, our Electric Circuit Models (ECM) showed that a parallel LFP-AC impedance unit in the hybrid cell was a reasonable model to visualize the synergy between the LFP and AC materials.

Na-ion Batteries

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Author :
Publisher : John Wiley & Sons
ISBN 13 : 1789450136
Total Pages : 386 pages
Book Rating : 4.7/5 (894 download)

Book Synopsis Na-ion Batteries by :

Download or read book Na-ion Batteries written by and published by John Wiley & Sons. This book was released on 2021-05-11 with total page 386 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book covers both the fundamental and applied aspects of advanced Na-ion batteries (NIB) which have proven to be a potential challenger to Li-ion batteries. Both the chemistry and design of positive and negative electrode materials are examined. In NIB, the electrolyte is also a crucial part of the batteries and the recent research, showing a possible alternative to classical electrolytes – with the development of ionic liquid-based electrolytes – is also explored. Cycling performance in NIB is also strongly associated with the quality of the electrode-electrolyte interface, where electrolyte degradation takes place; thus, Na-ion Batteries details the recent achievements in furthering knowledge of this interface. Finally, as the ultimate goal is commercialization of this new electrical storage technology, the last chapters are dedicated to the industrial point of view, given by two startup companies, who developed two different NIB chemistries for complementary applications and markets.

Encyclopedia of Electrochemical Power Sources

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Author : Jürgen Garche
Publisher : Newnes
ISBN 13 : 0444527451
Total Pages : 4532 pages
Book Rating : 4.4/5 (445 download)

Book Synopsis Encyclopedia of Electrochemical Power Sources by : Jürgen Garche

Download or read book Encyclopedia of Electrochemical Power Sources written by Jürgen Garche and published by Newnes. This book was released on 2013-05-20 with total page 4532 pages. Available in PDF, EPUB and Kindle. Book excerpt: The Encyclopedia of Electrochemical Power Sources is a truly interdisciplinary reference for those working with batteries, fuel cells, electrolyzers, supercapacitors, and photo-electrochemical cells. With a focus on the environmental and economic impact of electrochemical power sources, this five-volume work consolidates coverage of the field and serves as an entry point to the literature for professionals and students alike. Covers the main types of power sources, including their operating principles, systems, materials, and applications Serves as a primary source of information for electrochemists, materials scientists, energy technologists, and engineers Incorporates nearly 350 articles, with timely coverage of such topics as environmental and sustainability considerations

Strategies to Improve the Electrochemical Performance of Lithium-ion Batteries by Stabilizing the Interface of Electrode/electrolyte

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Author : Ye Jin
Publisher :
ISBN 13 :
Total Pages : 199 pages
Book Rating : 4.:/5 (124 download)

Book Synopsis Strategies to Improve the Electrochemical Performance of Lithium-ion Batteries by Stabilizing the Interface of Electrode/electrolyte by : Ye Jin

Download or read book Strategies to Improve the Electrochemical Performance of Lithium-ion Batteries by Stabilizing the Interface of Electrode/electrolyte written by Ye Jin and published by . This book was released on 2020 with total page 199 pages. Available in PDF, EPUB and Kindle. Book excerpt: "Lithium-ion batteries (LIBs) provide great potential for electric vehicles, and smart grids as future energy-storage devices. However, there are many challenges in the development of the LIB industry, including low energy and power density of electrode materials, poor rate performance, short cycle life of electrode materials, and safety issues caused by the flammability of the conventional organic liquid electrolytes. In this research, we were committed to using general approach to efficiently and economically synthesize or modify LIB materials by stabilizing the interface between electrode and electrolyte. Atomic layer deposition (ALD) method was used to coat metal oxide thin films on commercial electrode materials, which assisted the electrodes to form a beneficial interface layer and protected the active materials from organic liquid electrolyte, improved the conductivity of the active material, and led to an improved electrochemical performance of the material. The problem of uneven distribution of polyvinylidene fluoride (PVDF) binder had been solved using an extremely simple heat treatment method, which led to a stable and inorganic-riched solid electrolyte interphase (SEI) layer that improved the specific capacities and capacity retentions of the anode electrodes. A low liquid leakage ceramic polymer electrolyte (CPE) with high porosity, thermal and electrochemical stability, and ionic conductivity was synthesized to solve the safety issue of the uncontrolled growth of lithium dendrites in the conventional LIBs. Ultra-thin ZrO2 films were coated on cathode particles by ALD to reduce the interfacial resistance for all-solid-state battery, which improved lithium ions transport and suppressed undesirable interfacial side reactions"--Abstract, page

PROBING CHANGES IN THE SOLID ELECTROLYTE INTERPHASE IN LI-ION CELLS.

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Author : Alison Keefe
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (134 download)

Book Synopsis PROBING CHANGES IN THE SOLID ELECTROLYTE INTERPHASE IN LI-ION CELLS. by : Alison Keefe

Download or read book PROBING CHANGES IN THE SOLID ELECTROLYTE INTERPHASE IN LI-ION CELLS. written by Alison Keefe and published by . This book was released on 2019 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: In Li-ion cells, a passivating film called the solid electrolyte interphase (SEI) develops at the interface between the electrolyte and the electrode particles. The SEI is essential to the functionality of the cell, but the SEI can also have detrimental effects on the cell. The SEI impacts the internal cell impedance and capacity retention over the lifetime of the cell. Despite being a vital part of Li-ion cells, the properties of the SEI are not well known or understood. This thesis studies several properties of the SEI through a variety of techniques. Cells containing different electrolyte additives were studied using electrochemical impedance spectroscopy (EIS) and X-ray photoelectron spectroscopy (XPS) after formation and after long-term cycling. Positive and negative electrodes were examined separately to study the SEI at each electrode. EIS measurements were taken versus temperature, and activation energies (Ea) related to Li+ transport through the SEI were calculated. Ea values for the negative electrode SEI varied depending on the choice of electrolyte additive, but values did not vary substantially for the positive electrode SEI. After cycling, the Ea differed depending on electrolyte additive, electrode type, and voltage limits. Charge transfer resistance was also compared after formation and cycling and did not always correlate with Ea trends, suggesting that multiple factors influence SEI properties. XPS was used to study the chemical composition and thickness of the SEI. Electrolyte additives affected the quantity of inorganic materials in the SEI, and more inorganic material appears to correlate with lower Ea values. Cells containing lithium difluorophosphate electrolyte additive had the best lifetime of the cells studied in this work. These cells also showed the lowest SEI activation energy values, lowest charge transfer resistance, and most inorganic SEI composition after cycling.

Emerging Nanotechnologies in Rechargeable Energy Storage Systems

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Author : Lide M Rodriguez-Martinez
Publisher : William Andrew
ISBN 13 : 0323429963
Total Pages : 348 pages
Book Rating : 4.3/5 (234 download)

Book Synopsis Emerging Nanotechnologies in Rechargeable Energy Storage Systems by : Lide M Rodriguez-Martinez

Download or read book Emerging Nanotechnologies in Rechargeable Energy Storage Systems written by Lide M Rodriguez-Martinez and published by William Andrew. This book was released on 2017-02-06 with total page 348 pages. Available in PDF, EPUB and Kindle. Book excerpt: Emerging Nanotechnologies in Rechargeable Energy Storage Systems addresses the technical state-of-the-art of nanotechnology for rechargeable energy storage systems. Materials characterization and device-modeling aspects are covered in detail, with additional sections devoted to the application of nanotechnology in batteries for electrical vehicles. In the later part of the book, safety and regulatory issues are thoroughly discussed. Users will find a valuable source of information on the latest developments in nanotechnology in rechargeable energy storage systems. This book will be of great use to researchers and graduate students in the fields of nanotechnology, electrical energy storage, and those interested in materials and electrochemical cell development. - Gives readers working in the rechargeable energy storage sector a greater awareness on how novel nanotechnology oriented methods can help them develop higher-performance batteries and supercapacitor systems - Provides focused coverage of the development, process, characterization techniques, modeling, safety and applications of nanomaterials for rechargeable energy storage systems - Presents readers with an informed choice in materials selection for rechargeable energy storage devices

Development and Application of a ReaxFF Reactive Force Field for Solid Electrolyte Interphase Study in Silicon Based Li-ion Batteries

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Author : Mahdi Khajeh Talkhoncheh
Publisher :
ISBN 13 :
Total Pages : 0 pages
Book Rating : 4.:/5 (144 download)

Book Synopsis Development and Application of a ReaxFF Reactive Force Field for Solid Electrolyte Interphase Study in Silicon Based Li-ion Batteries by : Mahdi Khajeh Talkhoncheh

Download or read book Development and Application of a ReaxFF Reactive Force Field for Solid Electrolyte Interphase Study in Silicon Based Li-ion Batteries written by Mahdi Khajeh Talkhoncheh and published by . This book was released on 2024 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: The amount of energy required to satisfy the demands of the human population may not be able to be supplied solely by fossil fuels as the world population continues to rise and the supply of fossil fuels starts to decline. Lithium-ion batteries (LIBs), since being suggested as commercialized energy storage systems by Sony company in the 1990s, have been considered an important device in alternative energy solutions owing to their high energy density, wide working voltage, long cycling life, and low self-discharge rate. Improvement of the performance of these high energy chemical systems is directly linked to the understanding and improving the complex physical and chemical phenomena and exchanges that take place at their different interfaces. Surfaces or interfaces, which means structures built between dissimilar media such as liquids and solids, and interphases, which means structures formed within these dissimilar media, present significant challenges for their study and understanding since these are the regions where myriad events such as electron transfer, ion transfer and migration, reactions, and solvation/desolvation processes occur and significantly alter their configuration. A detailed understanding of battery chemistry, especially the formation of a solid electrolyte interphase (SEI)--a thin passivation layer which is generated during the first charge cycle due to the reduction of electrolytes--is still elusive. It is well known that the SEI has a strong influence on the battery performance characteristics, such as irreversible capacity, safety, and cycle life, when the SEI is a thin layer between the liquid electrolytes and anode surfaces formed by the electrochemical reductive decomposition reaction of the electrolyte during the initial few cycles. A stable SEI with full surface coverage over the electrode is important for achieving optimal electrochemical performances of Li-ion batteries. Understanding the SEI is quite challenging due to its complicated and amorphous structure. In order to investigate the physical and chemical interactions at the interfaces of energy storage devices such as Li-ion batteries a, we used ReaxFF reactive molecular dynamics simulations in the following two research areas: 1. In the last decade silicon has attracted significant attention as a potential next generation anode material for Li-ion batteries (LIBs) due to its high theoretical specific capacity (3579 mAh/g (Li15Si4)) compared to that of the commonly used graphite (372 mAh/g). However, despite the apparent attractiveness of Si in view of its application in LIBs, it is known to suffer from severe degradation problems which lead to performance losses of Si-based anodes, and the electrochemical outcome of the degradation is well documented in the literature: rapid capacity fading of the anode accompanied by the increased internal resistance of the cell. Full utilization of silicon's potential as an anode material is thus prevented by incomplete understanding of the degradation mechanisms and the resulting inability to implement effective mitigation tactics. To study the Si anode degradation at the anode/electrolyte interface, we have developed a ReaxFF reactive force field simulation protocol. In this protocol, a delithiation algorithm is employed. This novel systematic delithiation algorithm helps to capture the effect of different delithiation rates, which plays an important role in the irreversible structural change of delithiated Si. Besides, the fundamental of degradation was investigated by analyzing the relationship between the depth of discharge and corresponding volume and structural changes at different rates. 2. The SEI (solid-electrolyte interphase) is important for protecting silicon anodes in batteries from losing both silicon and electrolyte through side reactions. A major issue with this technology is SEI breakdown caused by cracking in silicon particles. A strategy is presented for creating a self-sealing SEI that automatically covers and protects the cracked surface of silicon microparticle anodes by bonding an ion pair to the silicon surface. The cations in the bond prevent silicon-electrolyte reactions while the anions migrate to the cracked surface and decompose more easily than the electrolyte. The SEI formed in this way has a double layer structure with a high concentration of lithium fluoride in the inner layer. To study the electrode electrolyte reactions at the anode/electrolyte interface, we have developed ReaxFF reactive force field parameter sets to organic electrolyte species such as ethylene carbonate, N-methyl-N-propyl pyrrolidinium bis(fluorosulfonyl)imide (PYR13FSI), LiPF6 salt and lithium-Silicon oxygen electrode. Density Functional Theory (DFT) data describing Li-associated initiation reactions for the organic electrolytes and bonding energies of Li-electrolyte structures were generated and added to ReaxFF training data and subsequently, we trained the ReaxFF parameters with the aim to find the optimal reproduction of the DFT data. This force field is capable of distinguishing Li interaction with electrolyte in presence of self-sealing layer. Moreover, these findings provide a new way to design a stable SEI at the highly dynamic electrode-electrolyte interface. In addition to this battery work, we also studied halogen interaction with platinum surfaces, a system that has received considerable attention in catalysis and semiconductor mannufacturing. These halogen gases are applied as platinum mobilizers in both deposition and corrosion or etching processes since PtCl4 adsorption from an electrolyte and subsequent reduction to metallic Pt clusters is an electrochemical pathway for obtaining highly dispersed, catalytically active Pt surfaces. A novel ReaxFF reactive force field has been developed to understand the size and shape-dependent properties of platinum nanoparticles for the design of nanoparticle-based applications. The ReaxFF force field parameters are fitted against a quantum mechanical (QM) training set containing the adsorption energy of Cl and dissociative HCl on Pt (100) and Pt (111), the energy-volume relations of PtCl2 crystals, and Cl diffusion on Pt (100) and Pt (111). ReaxFF accurately reproduces the QM training set for structures and energetics of small clusters and PtClx crystals. The predictive capacity of the force field was manifested in molecular dynamics simulations of the Cl2 and HCl molecules interactions on the (100) and)111(surfaces of c-Pt crystalline solid slabs. The etching ratio between HCl and Cl2 are compared to experimental results, and satisfactory results are obtained, indicating that this ReaxFF protocol provides a useful tool for studying the atomistic-scale details of the etching process.

Lithium and Lithium-ion Batteries

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Author : Kathryn Ann Striebel
Publisher : The Electrochemical Society
ISBN 13 : 9781566774130
Total Pages : 424 pages
Book Rating : 4.7/5 (741 download)

Book Synopsis Lithium and Lithium-ion Batteries by : Kathryn Ann Striebel

Download or read book Lithium and Lithium-ion Batteries written by Kathryn Ann Striebel and published by The Electrochemical Society. This book was released on 2004 with total page 424 pages. Available in PDF, EPUB and Kindle. Book excerpt: