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Characterization And Analysis Of Lithium Plating On Silicon Graphite Negative Electrodes In Lithium Ion Batteries
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Book Synopsis Characterization and Analysis of Lithium Plating on Silicon/graphite Negative Electrodes in Lithium Ion Batteries by : Marius Flügel
Download or read book Characterization and Analysis of Lithium Plating on Silicon/graphite Negative Electrodes in Lithium Ion Batteries written by Marius Flügel and published by . This book was released on 2023 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Detection and characterization of Lithium plating by : Long, Julian
Download or read book Detection and characterization of Lithium plating written by Long, Julian and published by Universitätsverlag der TU Berlin. This book was released on 2023-05-31 with total page 260 pages. Available in PDF, EPUB and Kindle. Book excerpt: Lithium plating is not only the most severe ageing mechanism in lithium-ion batteries (LIBs) but also becoming more and more important due the increasing presence of electric vehicles (EVs). In EVs the extreme conditions causing lithium plating, like very high charging currents and low environment temperatures, are much more prevalent than in consumer electronics. Due to the high number of factors that influence the plating process, ranging from the cell geometry to the chemical composition of the electrolyte, a deeper understanding of the plating process is still lacking. Without this knowledge it is hard to design cells in a plating resistant way, or to operate cells under the ideal conditions to minimize plating. This thesis aims at showing different methods to investigate the plating process on three different levels. The first method is on the cell level, investigating the behaviour of the whole cell during plating. It contains the analysis of the voltage and current profiles that show an atypical behaviour during plating. The focus of the analysis is on the current profile of the constant voltage (CV) phase during charging under low temperature conditions leading to plating. This current profile can be fitted with the Johnson-Mehl-Avrami-Kolmogorov (JMAK) function that describes the electrochemical deposition process of a metallic species on a surface. The resulting fitting parameters can be utilized to characterize the plating behaviour of the cell as well as better estimate the amount of plated lithium than commonly used methods. It can also potentially predict the future safety risk due to dendrite formation. In the second part the chemical composition of the surface electrolyte interface (SEI) is investigated using X-ray photoelectron spectroscopy (XPS). The composition as well as the mechanical properties of the SEI are strongly influencing the plating process and preliminary work has shown that plating is also changing the morphology of the SEI and increasing its thickness drastically. Cells under different conditions (plated, charged and discharged) as well as cells of different manufacturers have been probed using XPS. During the measurements an unwanted side effect of the experimental setup was discovered that lead to a migration of lithium to the surface of the sample and was distorting the measurement results. Regardless of the effect, it was possible to see that the SEI can have a very different composition in cells of different manufacturers and that plating not only changes the morphology but also the composition of the SEI. The unwanted side effect could furthermore be utilized to identify samples that were plated recently and could be used in further more controlled experiments to localize lithium depositions on plated samples. In the last part the particle structure of the anode surface of cells of different manufacturers was investigated using a watershed particle detection algorithm on laser scanning microscopy (LSM) images of the anode surfaces. The distributions of the particle sizes have then been compared to the capacity loss in plated cells. It was shown that the capacity loss correlates with parameters extracted from the particle size distributions. It is however necessary to create more data to verify this correlation. In summary this thesis utilized new methods to detect or characterize plating on different levels of magnification, from the cell level to the chemical composition. New approaches were found to predict a cells future plating behaviour, spatially localize plated areas on the anode and design cells in a plating resistant way. Lithium Plating ist nicht nur der Alterungsmechanismus in Lithium-Ionen-Batterien mit dem größten Kapazitätsverlust, sondern wird auch im Zuge der voranschreitenden Elektrifizierung des Personenverkehrs immer wichtiger. In Elektrofahrzeugen finden sich die extremen Zustände, wie niedrige Ladetemperaturen und hohe Ladestrome, unter denen Plating auftritt, deutlich häufiger als in Unterhaltungstechnik. Durch die Vielzahl von Parametern, von der Zellgeometrie bis hin zur Elektrolyzusammensetzung, die Plating beeinflussen, fehlt immer noch ein tieferes Verständnis des Plating-Prozesses. Ohne dieses Wissen ist es schwer, Zellen zu designen, die resistent gegen Plating sind oder Zellen unter optimalen Bedingungen zu betreiben um Plating zu minimieren. Das Ziel dieser Arbeit ist es, verschiedene Methoden aufzuzeigen, die die Untersuchung von Plating auf drei verschiedenen Ebenen ermöglichen. Die erste Methode untersucht das Gesamtverhalten der Zelle auf Zellebene. Hierbei wird das atypische Verhalten der Strom- und Spannunsprofile wahrend des Plating-Vorgangs analysiert. Der Fokus liegt dabei auf der Untersuchung der Konstantstrom-Phase bei niedrigen Temperaturen während der Ladung. Das Stromprofil dieser Phase kann mit der JMAK-Funktion gefittet werden, welche die elektrochemische Abscheidung eines Metalls auf einer Oberfläche beschreibt. Die resultierenden Fitting-Parameter können genutzt werden, um das Plating-Verhalten vorherzusagen und sind gleichzeitig eine bessere Abschätzung fur die Menge an geplatetem Lithium im Vergleich zu gängigen Methoden. Die Ergebnisse konnten außerdem helfen das Sicherheitsrisiko der Zelle bei Dendritenbildung vorherzusagen. Im zweiten Teil wird die chemische Zusammensetzung der SEI mittels XPS untersucht. Die Zusammensetzung, wie auch die mechanischen Eigenschaften der SEI, beeinflussen den Plating-Prozess stark und es wurde in vorhergehenden Arbeiten gezeigt, dass Plating auch die Morphologie und Dicke der SEI drastisch verändern kann. Zellen in verschiedenen Zuständen (geplatet, geladen, entladen), sowie Zellen verschiedener Hersteller wurden mit XPS untersucht. Während der Messungen wurde ein ungewollter Nebeneffekt des Messaufbaus entdeckt, der zu einer Migration von Lithium an die Oberflache der Proben geführt und die Messergebnisse verfälscht hat. Unabhängig von diesem Effekt war es dennoch möglich, zu zeigen, dass die SEI in Zellen verschiedener Hersteller stark unterschiedliche Zusammensetzungen haben kann und dass Plating nicht nur die Morphologie der SEI beeinflusst, sondern auch die chemische Zusammensetzung. Weiterhin konnte der ungewollte Nebeneffekt verwendet werden, um Proben zu identifizieren, die vor kurzem geplatet wurden und konnte in zukünftigen Arbeiten verwendet werden, um lokalisiert Lithium-Ablagerungen auf geplateten Proben zu identifizieren. Im letzten Teil wurde die Partikelstruktur der Anoden von Zellen verschiedener Zellhersteller mit Hilfe einer watershed-Partikeldetektion an LSM-Bildern untersucht. Die Verteilung der Partikelgrößen wurde mit dem Kapazitätsverlust gleicher Zelle durch Plating verglichen. Es wurde gezeigt, dass der Kapazitätsverlust mit Parametern, die aus den Partikelverteilungen extrahiert wurden, korreliert. Ein größerer Datensatz ist jedoch notwendig, um diese Ergebnisse zu validieren. Zusammenfassend hat diese Arbeit verschiedene neue Methoden aufgezeigt, um Plating auf verschiedenen Vergrößerungsebenen zu detektieren und zu charakterisieren. Neue Ansätze wurden gefunden, um das Platingverhalten von Zellen vorherzusagen, lokalisiertes Lithium auf der Oberfläche zu detektieren und Zellen platingresistenter designen zu können.
Book Synopsis Study of Recycled Silicon Powders and Carbon Black for Negative Electrodes of Lithium Ion Batteries and Electrochemical Characterization of Electrolytes Containing Additives by : 張朝翔
Download or read book Study of Recycled Silicon Powders and Carbon Black for Negative Electrodes of Lithium Ion Batteries and Electrochemical Characterization of Electrolytes Containing Additives written by 張朝翔 and published by . This book was released on 2020 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Laser Structuring of Graphite Anodes for Functionally Enhanced Lithium-Ion Batteries by : Jan Bernd Habedank
Download or read book Laser Structuring of Graphite Anodes for Functionally Enhanced Lithium-Ion Batteries written by Jan Bernd Habedank and published by utzverlag GmbH. This book was released on 2022-01-21 with total page 204 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Degradation of Carbon Negative Electrodes in Lithium-ion Batteries by : Peter Magdy Attia
Download or read book Degradation of Carbon Negative Electrodes in Lithium-ion Batteries written by Peter Magdy Attia and published by . This book was released on 2019 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt: The graphitic negative electrode is widely used in today's commercial lithium-ion batteries. However, its lifetime is limited by a number of degradation modes, particularly growth of the solid electrolyte interphase (SEI), lithium plating, and electrode inactivation. Two major challenges to better batteries are the range of length scales (nanometers to centimeters) over which degradation modes occur, as well as slow development times. In this thesis, I overcome these challenges by studying the degradation of carbon electrodes in both model systems and commercial devices and by using machine learning methods for accelerated battery optimization. First, I study SEI growth on carbon black via microscopy, electrochemistry, and modeling. I first use cryogenic transmission electron microscopy (cryo-EM) to image the SEI on carbon black and track its evolution during cycling. I observe an evolution of inorganic components in thin (~2 nm), primary SEI directly interfaced to the carbon black, as well as deposits of SEI that span hundreds of nanometers. I then electrochemically measure the dependence of SEI growth on potential, current magnitude, and current direction during galvanostatic cycling. I find that SEI growth strongly depends on all three parameters; most notably, SEI growth rates increase with nominal C rate and are significantly higher on lithiation than on delithiation. Finally, I model the SEI as a mixed ionic-electronic conductor, where the ionic concentration modulates the electronic conductivity. This model can account for the previously observed directional dependence. This work illustrates the MIEC-like nature of the SEI on carbonaceous anodes and illustrates the strong coupling between charge storage (i.e. intercalation) and SEI growth. Second, I characterize the cell-level degradation of commercial lithium iron phosphate (LFP)/graphite cylindrical cells during fast charging. I find that the graphite electrode exhibits significant and highly heterogeneous degradation during fast charging, with large ionically inactive regions located near the electrode tab. This ionic inactivation of the electrode appears to occur via large-scale SEI growth, preceding more conventional fast charging degradation modes such as lithium plating. Third, I optimize a six-step fast-charging protocol that achieves 80% state of charge in ten minutes on commercial LFP/graphite cylindrical cells. I first develop a machine learning algorithm that uses cycling data from the first 100 cycles to predict cycle lives that reach up to 2300 cycles with ~9% error. Then, I use an optimal experimental design methodology for fast-charging protocol optimization, with two key elements to reduce the optimization cost: early prediction of failure, which reduces the cost per experiment, and adaptive Bayesian multi-armed bandits, which reduces the number of experiments required. The fast charging protocols identified by this algorithm are unexpected given the battery literature. The combination of closed-loop optimization and early prediction illustrates the power of data-driven methods to accelerate the pace of scientific discovery.
Book Synopsis Batteries for Portable Devices by : Gianfranco Pistoia
Download or read book Batteries for Portable Devices written by Gianfranco Pistoia and published by Elsevier. This book was released on 2005-01-25 with total page 309 pages. Available in PDF, EPUB and Kindle. Book excerpt: Batteries for Portable Devices provides a comprehensive overview of all batteries used in portable electric and electronic, as well as medical devices. These range from the cellular phone to portable CD and cardiac pacemakers to remote micro-sensors. The author looks at the behaviour of batteries in the conditions encountered in the above applications. Information on the performance of the most recent commercial batteries are graphically illustrated and comparisons are made. This easy-to-read book also contains useful information on topics rarely discussed in the field, such as battery collection, recycling and market trends. * Contains an extensive bibliography* Includes rarely discussed topics, such as battery collection and recycling* Well illustrated and easy to read
Book Synopsis Development of Silicon-based Anodes and In-situ Characterization Techniques for Lithium Ion Batteries by : Jinho Yang
Download or read book Development of Silicon-based Anodes and In-situ Characterization Techniques for Lithium Ion Batteries written by Jinho Yang and published by . This book was released on 2014 with total page 109 pages. Available in PDF, EPUB and Kindle. Book excerpt: Development of lithium ion batteries (LIBs) with higher capacity has been booming worldwide, as growing concerns about environmental issues and increasing petroleum costs. The demands for the LIBs include high energy and power densities, and better cyclic stability in order to meet a wide range of applications, such as portable devices and electric vehicles. Silicon has recently been explored as a promising anode material due to its low discharge potential (0.4 V) and high specific capacity (4200 mAh gsuper-1/super). The capacity of silicon potentially exceeds more than 10 times of the conventional graphite anode (372 mAh gsuper-1/super). However, the silicon anode experiences huge volume expansion (400%) and contraction during electrochemical cycles, resulting in pulverization and disintegration of the active material. For the improvement of the battery performance, understanding of the failure mechanism associated with the stress evolution during cycling is critical. This study aims (1) to develop high performance anode materials and (2) to analyze the mechanism of the capacity fading using a novel in-situ characterization technique in order to optimize the electrode design for better operation of the battery. The silicon nitride thin film anodes were investigated for the improvement of cycling performance. In addition, the rate performance was enhanced by controlling the parameters in film deposition. Si-based thin films undergo large stresses induced by the volume changes, which results in material degradation and capacity fading. Hence, the in-situ measurement of the electrochemical processes is critical to clarify how the electrode degrades with time under cycling. For the in-situ measurement, a white light interferometry (WLI) and laser vibrometer were used to gather quantitative data. Amorphous silicon (italica
Book Synopsis Preparation and Characterization of Graphite and Fullerene Soot Composite Materials for Use as Lithium Ion Battery Negative Electrodes by : Robert Ellis Doe
Download or read book Preparation and Characterization of Graphite and Fullerene Soot Composite Materials for Use as Lithium Ion Battery Negative Electrodes written by Robert Ellis Doe and published by . This book was released on 2006 with total page 296 pages. Available in PDF, EPUB and Kindle. Book excerpt:
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.
Book Synopsis Characterization and Morphological Analysis of Porous Electrodes for Lithium-Ion Batteries by : Moritz Kroll
Download or read book Characterization and Morphological Analysis of Porous Electrodes for Lithium-Ion Batteries written by Moritz Kroll and published by . This book was released on 2021 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Impedance Spectroscopy by : Evgenij Barsoukov
Download or read book Impedance Spectroscopy written by Evgenij Barsoukov and published by John Wiley & Sons. This book was released on 2018-03-22 with total page 1088 pages. Available in PDF, EPUB and Kindle. Book excerpt: The Essential Reference for the Field, Featuring Protocols, Analysis, Fundamentals, and the Latest Advances Impedance Spectroscopy: Theory, Experiment, and Applications provides a comprehensive reference for graduate students, researchers, and engineers working in electrochemistry, physical chemistry, and physics. Covering both fundamentals concepts and practical applications, this unique reference provides a level of understanding that allows immediate use of impedance spectroscopy methods. Step-by-step experiment protocols with analysis guidance lend immediate relevance to general principles, while extensive figures and equations aid in the understanding of complex concepts. Detailed discussion includes the best measurement methods and identifying sources of error, and theoretical considerations for modeling, equivalent circuits, and equations in the complex domain are provided for most subjects under investigation. Written by a team of expert contributors, this book provides a clear understanding of impedance spectroscopy in general as well as the essential skills needed to use it in specific applications. Extensively updated to reflect the field’s latest advances, this new Third Edition: Incorporates the latest research, and provides coverage of new areas in which impedance spectroscopy is gaining importance Discusses the application of impedance spectroscopy to viscoelastic rubbery materials and biological systems Explores impedance spectroscopy applications in electrochemistry, semiconductors, solid electrolytes, corrosion, solid state devices, and electrochemical power sources Examines both the theoretical and practical aspects, and discusses when impedance spectroscopy is and is not the appropriate solution to an analysis problem Researchers and engineers will find value in the immediate practicality, while students will appreciate the hands-on approach to impedance spectroscopy methods. Retaining the reputation it has gained over years as a primary reference, Impedance Spectroscopy: Theory, Experiment, and Applications once again present a comprehensive reference reflecting the current state of the field.
Book Synopsis Lithium Metal Anodes and Rechargeable Lithium Metal Batteries by : Ji-Guang Zhang
Download or read book Lithium Metal Anodes and Rechargeable Lithium Metal Batteries written by Ji-Guang Zhang and published by Springer. This book was released on 2016-10-06 with total page 206 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book provides comprehensive coverage of Lithium (Li) metal anodes for rechargeable batteries. Li is an ideal anode material for rechargeable batteries due to its extremely high theoretical specific capacity (3860 mAh g-1), low density (0.59 g cm-3), and the lowest negative electrochemical potential (−3.040 V vs. standard hydrogenelectrodes). Unfortunately, uncontrollable dendritic Li growth and limited Coulombic efficiency during Li deposition/stripping inherent in these batteries have prevented their practical applications over the past 40 years. With the emergence of post Liion batteries, safe and efficient operation of Li metal anodes has become an enabling technology which may determine the fate of several promising candidates for the next generation energy storage systems, including rechargeable Li-air batteries, Li-S batteries, and Li metal batteries which utilize intercalation compounds as cathodes. In this work, various factors that affect the morphology and Coulombic efficiency of Li anodes are analyzed. The authors also present the technologies utilized to characterize the morphology of Li deposition and the results obtained by modeling of Li dendrite growth. Finally, recent developments, especially the new approaches that enable safe and efficient operation of Li metal anodes at high current densities are reviewed. The urgent need and perspectives in this field are also discussed. The fundamental understanding and approaches presented in this work will be critical for the applicationof Li metal anodes. The general principles and approaches can also be used in other metal electrodes and general electrochemical deposition of metal films.
Book Synopsis Lithium-Ion Batteries: Basics and Applications by : Reiner Korthauer
Download or read book Lithium-Ion Batteries: Basics and Applications written by Reiner Korthauer and published by Springer. This book was released on 2018-08-07 with total page 417 pages. Available in PDF, EPUB and Kindle. Book excerpt: The handbook focuses on a complete outline of lithium-ion batteries. Just before starting with an exposition of the fundamentals of this system, the book gives a short explanation of the newest cell generation. The most important elements are described as negative / positive electrode materials, electrolytes, seals and separators. The battery disconnect unit and the battery management system are important parts of modern lithium-ion batteries. An economical, faultless and efficient battery production is a must today and is represented with one chapter in the handbook. Cross-cutting issues like electrical, chemical, functional safety are further topics. Last but not least standards and transportation themes are the final chapters of the handbook. The different topics of the handbook provide a good knowledge base not only for those working daily on electrochemical energy storage, but also to scientists, engineers and students concerned in modern battery systems.
Book Synopsis Nanomaterials for Lithium-Ion Batteries by : Rachid Yazami
Download or read book Nanomaterials for Lithium-Ion Batteries written by Rachid Yazami and published by CRC Press. This book was released on 2013-10-08 with total page 452 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book covers the most recent advances in the science and technology of nanostructured materials for lithium-ion application. With contributions from renowned scientists and technologists, the chapters discuss state-of-the-art research on nanostructured anode and cathode materials, some already used in commercial batteries and others still in de
Book Synopsis Characterization and Prediction of Lithium Plating Due to Fast-charging of Li-ion Batteries by : Polina Brodsky
Download or read book Characterization and Prediction of Lithium Plating Due to Fast-charging of Li-ion Batteries written by Polina Brodsky and published by . This book was released on 2021 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: As demand for sustainable and clean transportation continues to increase, matching the refueling capabilities of Electric Vehicles (EVs) to conventional vehicles is a major research and development challenge. To accelerate the adoption of EVs, higher power fast charging must be implemented. Currently, fast charging a battery pack presents several barriers, primarily with respect to cell longevity and safety. One of the main durability issues is caused by lithium plating, a degradation phenomenon that may occur when charging a cell at high C-rate or low temperature conditions. Plating can significantly reduce a cell cycle life and poses serious safety concerns due to potential thermal runaway from internal shorting. For these reasons, it is important to predict the root causes and mechanisms associated to Li-plating and mitigate its effects to prevent the chemical and mechanical degradation of cells during fast charging. This Dissertation seeks to develop physics-based modeling techniques and integrate them with novel experimental testing procedures to predict the cell behavior associated with lithium plating. Fast charge testing was performed with the goal of measuring cell behavior at different conditions by varying charging C-rate, cutoff current, and temperature. The results of this investigation were used to develop a method to detect the onset of lithium plating using specific indicators of the reaction in the collected data. Starting from the test results, a physics-based model predicting the degradation induced by fast charging was created and integrated into two different electrochemical models. In doing so, the specific problem of improving the accuracy of electrochemical models in predicting the cell voltage response during fast charging conditions was investigated. The methods developed in this Dissertation for integrating physics-based models and experimental analysis provide fundamental guidance to conduct a thorough investigation into the factors that govern the onset of plating, as well as provide quantitative information on the effects caused by this phenomenon.
Book Synopsis Effects of Surface Chemical Treatment on Silicon Negative Electrodes for Lithium-ion Batteries: an in Situ Infrared Spectroscopic Study by : Daniel Alves Dalla Corte
Download or read book Effects of Surface Chemical Treatment on Silicon Negative Electrodes for Lithium-ion Batteries: an in Situ Infrared Spectroscopic Study written by Daniel Alves Dalla Corte and published by . This book was released on 2013 with total page 140 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Three Dimensional Characterization of Failure Evolution of Tin and Silicon in Lithium Ion Battery Electrodes by : Joseph Fernando Gonzalez
Download or read book Three Dimensional Characterization of Failure Evolution of Tin and Silicon in Lithium Ion Battery Electrodes written by Joseph Fernando Gonzalez and published by . This book was released on 2015 with total page pages. Available in PDF, EPUB and Kindle. Book excerpt:
