Showing 85–88 of 152 results

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    Combining Characterization Techniques for Supporting Development of Batteries

    The complexity and scale of different physical-chemical processes inside batteries render any development to be strongly dependent on their proper description and monitoring, from nano-scale to the system-scale. Using different case studies solved by the TEESMAT platform, we will demonstrate how the combination of standard and advanced characterization techniques can support the development of new batteries. Among some examples, we will present:

    – Probing the failure mechanisms of new ultra-capacitors
    – Analyzing commercial Li-ion cells for envisaging a second life (safety)
    – Understanding the copper oxidation phenomena during the fabrication process
    – Quality control of electrodes
    – Fine characterization of polymer based electrolyte for future Li-ion batteries

    This webinar will focus on the following key topics:

    • Complexity of electrochemical energy storage systems
    • Efficient characterization tools – from nano-scale to pack size
    • Case studies on full value chain – material level, electrochemical mechanisms, production processes, safety, and increased device performance

    Presenter
    Cyril Marino, PhD – Project Leader at Serma Technologies

    Dr. Cyril Marino obtained a PhD on material science about the understanding of electrochemical phenomena for the conversion materials used as negative electrode for Li-ion batteries at Université Montpellier 2 (France) in 2012. He was pursuing in the field of research with one assistant professor position at Technische Universität München (Germany) and one scientist position at Paul Scherrer Institut to work on the understanding of high voltage cathode materials for Li-ion batteries and the development of Na-ion batteries. He joined Serma Technologies in March 2019 as electrochemical energy storage systems Expert and is the TEESMAT project leader at Serma.

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    Methods and Instrumentation for Testing Li-ion Batteries, Materials to Modules

    We will walk through different phases of research from material development, characterization of cells and stacks, and advanced diagnostics on modules for Electric Vehicles. Attendees will have the opportunity to listen to and speak with the innovators of the frequency response analyzer (Solatron Analytical) and the digital potentiostat (Princeton Applied Research).

    Features of instrumentation will be translated into benefits for users. Data from many different solutions will be presented; highlighted by the recently concluded UK-based consortium to rapidly grade the State-of-Health of NISSAN Leaf modules.

    This webinar will focus on the following key topics:

    • Electrochemical methods used to characterize Li-ion batteries:  materials, cells, stacks, and modules
    • Benefits of accuracy and resolution on performance tests of Energy Devices
    • Mapping of experiment techniques and test methods to instrument specifications
    • How AMETEK’s portfolio meets these similar but uniquely defined needs at different points of the value chain

    Presenter
    Rob Sides – Director, Marketing & Product Management at AMETEK

    Rob Sides presents here as part of AMETEK, a global enterprise supporting electrochemical research through its Princeton Applied Research and Solartron Analytical brands. He joined AMETEK after achieving his Ph.D. from University of Florida in 2005, where he authored several original research papers, presentations, invited reviews and book chapters on the fabrication and characterization of Li-ion battery electrodes using DC and EIS-based methods. At AMETEK Rob has held several roles across different functional groups of Applications, Sales/Marketing and Product Management. His background provides a depth and breadth of experience to present both fundamentals and solutions to the most challenging problems.

    AMETEK is a proud sponsor of this event.

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    Potentiostat and Battery Analyzer Design Fundamentals Explained for Users

    Potentiostats and Battery Analyzers have a critical role in evaluating how energy devices will perform. Understanding the basic design structure of instrumentation provides tools to users for informed decisions on experiments, analysis and products.

    AMETEK presents here on the different core functions on how signals are generated, cells are controlled and responses are measured.

    This content is presented from the perspective of a user and by the innovator of the digital potentiostat, Princeton Applied Research. Peek under the cover of the instrument that you rely on for your research and diagnostic programs. Most of the content will be general, so users of all instruments can find value. Learn the difference in your DACs and ADCs!

    This webinar will focus on the following key topics:

    • Detail how potentiostats create signals, control cells and measure responses
    • Decode jargon and terminology used in instrument design for users
    • Explain which specifications relate to which functions
    • Show how to take advantage of the capabilities of your system
    • Use AMETEK’s portfolio as an example of different points in price-and-capability

    Presenter
    Rob Sides – Applications Architect at AMETEK

    Rob Sides presents here as part of AMETEK, a global enterprise supporting electrochemical research through its Princeton Applied Research and Solartron Analytical brands. He joined AMETEK after achieving his Ph.D. from University of Florida in 2005, where he authored several original research papers, presentations, invited reviews and book chapters on the fabrication and characterization of Li-ion battery electrodes using DC and EIS-based methods. At AMETEK, Rob has held several roles across different functional groups of Applications, Sales/Marketing and Product Management. His background provides a depth and breadth of experience to present both fundamentals and solutions to the most challenging problems.

    AMETEK is a proud sponsor of this event.

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    Calorimetric Measurements of Lithium-Ion Batteries Under Use and Abuse

    This presentation will describe two main types of calorimetric techniques that can be used to carry out performance and safety testing on batteries. These are isothermal calorimetry and adiabatic calorimetry.

    The first half of the presentation will introduce isothermal calorimetry; the various types of instruments, the method of operation, and examples of data that can be obtained. The second half of the presentation will cover battery testing methods for the ARC adiabatic calorimeter system. The theoretical background of the test method will be described, and recommended practice for various types of testing will be discussed.

    The presentation will also mention complementary test methods that can be integrated with calorimetry to provide even more useful analysis.

    This webinar will focus on the following key topics:

    • Principles of isothermal and adiabatic calorimetry for batteries
    • Advantages and limitations of these two methods
    • Discussion of applications and results
    • Recommended testing practices

    Presenter
    Danny Montgomery – Technical Performance Manager at THT

    Danny Montgomery has worked in Thermal Hazard Technology UK for 11 years. He joined the company after graduating from Southampton University with a master’s degree in physics. His current position is Technical Performance Manager. He manages THT’s test lab and continues to expand THT’s testing capability into new areas of interest for a range of high-profile clients. As well as managing the lab, Danny is involved with technical support, installation and training for THT’s calorimeter systems. He has provided training for major international companies such as Panasonic, LG, Samsung, BMW and Underwriters Laboratory.

    Thermal Hazard Technology (THT) is a proud sponsor of this event.

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