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Showing 61–64 of 78 results

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  Results from a Comprehensive Battery Benchmarking Index

  This talk introduces a comprehensive battery benchmarking index that provides data-backed insights into cell performance needed to evaluate and select the optimal batteries for your application. In this talk, we present a broad and diversified cell database and present the preliminary results from rigorous comparative analysis of these cells. We will end with industry leading battery analytics, enabling customer organizations to be agile and employ best practices with regard to testing and analysis in engineering.

  This webinar will focus on the following key topics:

  • Comparative analysis of cells in recently released products including EVs and power tools
  • Demonstration of large scale analysis across the benchmarking database
  • Demonstration of leveraging models and experimental data together

  Presenters
  Dr. Christianna Lininger – Director of Battery Engineering and Sciences at Voltaiq
  Dr. Jan Richter – CEO and Co-Founder at Batemo

  Dr. Christianna Lininger is the Director of Battery Engineering and Sciences at Voltaiq. She has a Master of Science (M.S.) and Doctor of Philosophy (Ph.D.) focused in Chemical Engineering from Columbia University in the City of New York. Following her graduate studies she undertook post-doctoral studies at University of California, Berkeley. Her research was focused on theoretical computational chemistry and physics-based modeling for renewable energy technologies.

  Dr.-Ing. Jan Richter studied electrical engineering and information technology at the Karlsruhe Institute of Technology (KIT). He focused on electric mobility and the fields of electrochemical energy storage, power electronics, and electrical machines. He has completed his doctorate on modelling, parameter identification and control of highly-utilized synchronous machines, graduating summa cum laude.

  Voltaiq is a proud sponsor of this event.

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  Detecting Large Particles and Contaminants Using Dynamic Imaging and Adaptive Diffraction on Mastersizer 3000+

  Large particles and contaminants may cause local hotspots in battery cells severely impacting safety and performance, making early detection of oversized particles an important analytical requirement. We will discuss how a combination of dynamic imaging and adaptive Laser diffraction can be used to detect oversized particles down to a few particles per million level.

  This webinar will focus on the following key topics:

  • Large particles and contaminants in electrode materials
  • Laser diffraction for particle sizing
  • Dynamic imaging for particle shape analysis and large particle detection
  • Adaptive diffraction for large particle detection

  Presenter
  Umesh Tiwari – Market Development Manager, Advanced Battery at Malvern Panalytical

  Dr. Umesh Tiwari is the Market Development Manager, Advanced Battery at Malvern Panalytical. He has a Ph.D. in physics and has 17 years of experience working with academia and industries for lab and online solutions for advanced research and enhanced productivity. His expertise is in the structural, elemental, and morphological characterization of powder, slurry, and finished materials including online monitoring for process and quality controls. He has been closely associated with many development projects within Malvern Panalytical to bring technological enhancement in characterization tools to benefit battery research and manufacturing.

  Malvern Panalytical is a proud sponsor of this event.

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  Caution – You Might NOT Have Freedom to Infringe Expired Patents!

  A patent term is generally limited to twenty-years from its filing date. Since the battery industry is more than twenty-years mature, certain seminal battery patents covering active materials, electrolytes, and separators are going offline. Does that mean anyone can practice what these patents claim? Or have the patent owners found ways to evergreen and extend their effective patent terms? This webinar will discuss freedom-to-operate in view of expired patents and the second-generation patents that followed.

  This webinar will focus on the following key topics:

  • Seminal battery patents that were filed more than twenty-years ago are going offline
  • Does that mean you can infringe those patents with impunity?
  • It depends on whether the patent owners have found means to extend their patent monopoly
  • How can one evergreen a battery patent portfolio and what does that mean for competitors that want to practice expired patents?

  Presenter
  Todd Ostomel – Partner at Squire Patton Boggs

  Todd focuses on patent prosecution and portfolio management, patent opinions, due diligence, utility and design patent applications, and trade secret counseling. Todd has extensive experience preparing and prosecuting US and international patent applications for energy storage devices, rechargeable battery materials, small and large molecules, ceramics, polymorphs, biofuels, diagnostics, chemical processes, cryptocurrency, LEDs, photovoltaics, and machine learning technology. Todd also has extensive experience with trade secret enforcement.

  His clients appreciate his ability to understand the technical details of their inventions as well as the legal issues relevant to their business goals.

  PlugVolt is a proud sponsor of this event.

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  Accelerating Factory Ramp-up and Quality Through Advanced In-line Electrochemical Techniques

  Battery quality issues in production — more specifically, slow identification of issues — severely hamper both new factory ramp-up and in-field device performance and reliability.

  By leveraging electrochemical techniques and the fundamental signatures of batteries during the end-of-line process, we can: 1) identify poor-performing cells before they would be otherwise be identified, 2) quickly correlate performance issues to upstream root cause, and 3) identify which electrochemical metrics are best correlated with long-term performance.

  In the webinar, we will delve into strategies to leverage end-of-line electrochemical characteristics, encompassing thermodynamics, kinetics, and transport phenomena. The analysis of these fundamental metrics enables the identification of quality issues early to accelerate new factory ramp-up and ensure the performance and reliability of shipped devices.

  This webinar will focus on the following key topics:

  • The multi-year, multi-billion-dollar battery factory scale-up challenge
  • The impact of battery quality variation on devices in the field
  • Techniques to understand the fundamental electrochemical signatures of batteries
  • Use of these techniques to accelerate factory ramp-up and improve shipped production quality

  Presenter
  Blake Hawley – Sr. Battery Engineer at Voltaiq

  Blake obtained a PhD from the University of Tennessee in Energy Science and Engineering and performed his dissertation research at Oak Ridge National Laboratory. In his career, he has developed next-generation electrode processing methods, including water-processed cathodes and dual-layered electrodes. He also has industrial experience with materials quality assurance, cell testing, and cobalt-free cathode technology.

  Voltaiq is a proud sponsor of this event.

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