Pre-Recorded Webinars

Showing 49–52 of 152 results

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  On-line Process Control Solutions for Battery Components Manufacturing

  Join us for an insightful webinar where we delve into the transformative power of process analytical solutions in the context of Industry 4.0’s smart factory evolution. Discover how our comprehensive suite of online solutions drives yield and ensures quality throughout the battery manufacturing landscape and across the entire value chain.

  From particle size analysis of precursor and electrode materials to elemental composition scrutiny in liquid precursors and electrode coatings, we offer a tailored approach to streamline your production and recycling processes. While the QC lab can be outfitted with our PSD, XRF, XRD, Imaging and Light Scattering instruments, to name a few, we are focused on bringing innovative solutions to where it’s needed most, whether that is in R&D, pilot or full production lines. These solutions are now in-line, on-line, at-line as well as in-situ and in-operando delivering real-time data for insightful and actionable intelligence.

  Don’t miss this opportunity to streamline your processes and unlock the full potential of Industry 4.0 in battery production.

  This webinar will focus on the following key topics:

  • Particle size control of precursor and cathode materials
  • Elemental composition control of battery liquid precursors
  • Elemental composition control of battery electrode coatings
  • XRF Technology for Elemental composition analysis with process automation
  • Laser diffraction Technology for particle size analysis with process automation

  Presenters
  Michel Zoontjes – Product Manager, EDXRF at Malvern Panalytical
  Jeff DeNigris – Business Development Manager, Batteries at Malvern Panalytical

  Malvern Panalytical is a proud sponsor of this event.

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  Fundamentals of Electrochemical Impedance Spectroscopy and Application to Li-Ion Batteries

  Electrochemical Impedance Spectroscopy (EIS) is a high-information content technique that provides insight into complex systems. EIS has gained tremendous popularity since innovation with the line of Frequency Response Analyzers from Solartron Analytical – but remains intimidating to many users. Join this webinar to gain confidence in your understanding of the technique itself and its application to the Li-Ion battery activity chain. EIS is used to: 1.) study diffusion characteristics and SEI formation during material development, 2.) identify degradation modes, ESR, State-of-Charge during cell characterization, and 3.) rapid grade State-of-Health during modules evaluation.

  This webinar will focus on the following key topics:

  • Fundamentals of data acquisition and data analysis of EIS
  • How EIS theory is applied in practice by beginners and experts
  • The value of EIS as a tool in evaluation of Li-ion batteries
  • How AMETEK’s portfolio meets uniquely defined needs at different points of the value chain

  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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  Cause Analysis for Performance Degradation of LIBs and Analytical Methods for All Solid-State Batteries

  In Part 1, we showcase the analytical approaches of cause analysis for performance degradation of Lithium-Ion Batteries (LIBs). By the combination of electrochemical and teardown analysis, we’ll get you to find the main cause of performance degradation, and help you improve the materials optimized for the charge/discharge conditions.

  Part 2 covers various analytical methods of sulfide/oxide based All Solid-State Batteries (ASSBs), in terms of composition of solid electrolyte, coverage ratio of coating layer on cathode, and component distribution in cells. In addition, brand-new analytical methods such as in situ SEM will be presented, which will expedite your R&D.

  This webinar will focus on the following key topics:

  • Cause analysis for performance degradation of LIBs
  • Comprehensive estimation of performance degradation, and electrochemical and teardown analysis of LIBs
  • Useful analysis for material development/process optimization of ASSBs
  • Use cases for sulfide/oxide based solid electrolyte, and coating layer on cathode
  • Cutting-edge analytical methods: in situ analysis/micro analysis

  Presenters
  Yasuhito Aoki – Researcher at Toray Research Center
  Masahiro Saito – Researcher at Toray Research Center

  Yasuhito Aoki is a researcher at Toray Research Center. He has been working on material analysis of battery related materials using Raman and infrared spectroscopy.

  Masahiro Saito is a researcher at Toray Research Center. He has been working on material analysis of sulfide/oxide solid electrolyte using surface analysis (mainly RBS/NRA).

  Toray Research Center, Inc. is a proud sponsor of this event.

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• 

  Advanced Test Methods for Isothermal and Adiabatic Battery Calorimetry

  This presentation describes two main types of calorimetric techniques that can be used to carry out performance and safety testing on lithium-ion and other high-energy batteries.

  The first half of the presentation introduces isothermal calorimetry; the various types of instruments, the method of operation and examples of data which can be obtained, including new developments from THT.

  The second half of the presentation covers battery testing methods for the ARC® adiabatic calorimeter system. The theoretical background of the test method is described and recommended practices for various types of testing are discussed.

  The presentation also mentions complementary test methods that can be integrated with calorimetry to provide even more useful analysis, and new developments in test equipment from THT.

  This webinar will focus on the following key topics:

  • Principles of isothermal and adiabatic calorimetry testing for high-energy batteries
  • Advantages and limitations of these two methods
  • Discussion of different test types and results
  • Recommended testing practices, limitations, future developments

  Presenter
  Danny Montgomery – Technical Performance Manager at Thermal Hazard Technology

  Danny Montgomery has worked in Thermal Hazard Technology UK for 13 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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