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  • (FREE) New Developments in Isothermal Microcalorimetry and ARC® Testing Methods

    Wednesday, December 4, 2019 | 10:00 A.M. EST USA

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

    THT’s new Micro Battery Calorimeter is presented along with initial data from a prototype unit. This device is focused on high sensitivity measurement which is required for coin and button cell samples which produce only milliwatts of heat during use. This is an example of an isothermal calorimeter system.

    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 practice for various types of testing are discussed.

    This webinar will focus on the following key topics:

    • Principles of isothermal calorimetry for batteries
    • Introduction to the Micro Battery Calorimeter and initial data
    • Theoretical background to ARC® testing
    • Recommended ARC® testing practices

    A PDF copy of the presentation will be sent to all attendees after the event.

    Presenter
    Danny Montgomery – Technical Performance Manager at THT

    Danny Montgomery has worked in Thermal Hazard Technology for 10 years. His current position is Technical Performance Manager. He manages THT’s test lab which has recently been expanded due to THT’s increasing cell testing workload.

    He joined the company after graduating from Southampton University with a master’s degree in physics.

    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 battery and automotive companies around the world such as Panasonic, LG, Samsung, BMW and General Motors. Danny is based in THT’s head office in Bletchley, UK.

    THT is a proud sponsor of this event.

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  • All Solid-State Batteries and the Future of Energy Storage

    Wednesday, January 22, 2020 | 10:00 A.M. EST USA

    The development of all solid-state batteries (ASSBs) has seen tremendous progress in recent years. However, several barriers still need to be overcome before ASSBs can be commercialized. These obstacles include poor interfacial stability, scalability challenges as well as the difficulty to precisely diagnose problems within the cell. Additionally, efforts to develop sustainable recyclability in lithium ion batteries are still lacking. In this webinar, we discuss SSEs chemistries and its implications on interfacial stability. We also cover the current state-of-the-art characterization techniques and evaluate future ASSB prototyping strategies. Finally, we hope to discuss potential strategies toward a sustainable ASSB recycling model to address the growing lithium ion battery waste problem.

    This webinar will focus on the following key topics:

    • Overview of solid-state batteries and solid-state electrolyte research
    • Importance of interfacial stability – correlate chemical, electrochemical and mechanical-induced reactions
    • Challenges for diagnosis / characterization of buried interfaces and lithium dendrites
    • Scalable fabrication considerations of commercialized all-solid-state batteries
    • Sustainability – Battery recycling concerns of Cost, Efficiency and the Environment

    A PDF copy of the presentation will be sent to all attendees after the event.

    Presenter
    Dr. Y. Shirley Meng – Professor at University of California San Diego
    Darren Tan – Founder and CTO at Unigrid Pte. Ltd.

    Dr. Y. Shirley Meng holds the Zable Endowed Chair Professor in Energy Technologies and is professor in NanoEngineering at UC San Diego. Shirley is the principal investigator of the research group – Laboratory for Energy Storage and Conversion (LESC). She is the founding Director of Sustainable Power and Energy Center (SPEC).

    Darren Tan is a founder and CTO of Unigrid Pte. Ltd. He is also a Chemical Engineering PhD student working at UC San Diego with the LESC group.

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  • EIS for Energy Storage Tutorial Course 1/3 – Basics of Electrochemical Impedance Spectroscopy

    Wednesday, March 11, 2020 | 10:00 A.M. EDT USA

    The theoretical principles of Electrochemical Impedance Spectroscopy (EIS) are given. Details on what is being measured and which information it gives on the studied system are also explained. Some elements will be given on how an EIS measurement is performed from an instrumental point of view. Finally, the requirements that EIS must fulfill are presented.

    This webinar will focus on the following key topics:

    • What is an EIS measurement?
    • Which information do we get from this measurement?
    • How is it performed?
    • Which requirements should it fulfill?

    A PDF copy of the presentation will be sent to all attendees after the event.

    Presenter
    Dr. Nicolas Murer – Product Manager and Applications Engineer at Bio-Logic SAS, France

    Nicolas Murer is an application and product manager at Bio-Logic Science Instruments. Bio-Logic designs and manufactures potentiostats/galvanostats, battery cyclers and scanning probe electrochemical workstations.

    He received his engineer diploma from Polytechnic Institute of Grenoble in electrochemistry and materials in 2003. He then received his Ph.D. at Université de Bourgogne in 2008. Prior to joining Bio-Logic in 2011, he was a post-doc at the Ohio State University, Columbus.

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  • EIS for Energy Storage Tutorial Course 2/3 – How to Perform Good and Reliable EIS Measurements

    Wednesday, March 25, 2020 | 10:00 A.M. EDT USA

    Electrochemical Impedance Spectroscopy (EIS) is a powerful technique, but it might be difficult to know which parameters to set as it really depends on the studied system. We give a few guidelines and tools needed to set the right amplitude, as well as other experimental parameters of interest that can increase the accuracy and the reliability of your measurement.

    A discussion will be given about when and whether to choose between potentio-controlled or galvano-controlled EIS.

    Finally, we will give recommendations on the conditions that the system under study should fulfill, especially time-variance, with some examples on the effect it has on impedance data and how to correct them.

    This webinar will focus on the following key topics:

    • How to choose the amplitude of the input signal?
    • How to choose between PEIS and GEIS?
    • What do I need to check on my system?

    A PDF copy of the presentation will be sent to all attendees after the event.

    Presenter
    Dr. Nicolas Murer – Product Manager and Applications Engineer at Bio-Logic SAS, France

    Nicolas Murer is an application and product manager at Bio-Logic Science Instruments. Bio-Logic designs and manufactures potentiostats/galvanostats, battery cyclers and scanning probe electrochemical workstations.

    He received his engineer diploma from Polytechnic Institute of Grenoble in electrochemistry and materials in 2003. He then received his Ph.D. at Université de Bourgogne in 2008. Prior to joining Bio-Logic in 2011, he was a post-doc at the Ohio State University, Columbus.

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  • EIS for Energy Storage Tutorial Course 3/3 – Application Examples in Energy Storage Taken From The Literature

    Wednesday, April 08, 2020 | 10:00 A.M. EDT USA

    This presentation will give some examples of applications of EIS to various types of energy storage – for example, intercalation batteries (LFP, LCO, NiCd, NiMH etc.), lead acid batteries, and redox flow batteries. The examples are taken from research literature. The review will not be exhaustive, but it will provide examples that are considered relevant. For each application, some elements of comparison between EIS and DC methods will be given.

    This webinar will focus on the following key topics:

    • Examples in insertion batteries
    • Examples in lead acid batteries
    • Examples in redox flow batteries
    • Examples in supercapacitors
    • Comparison with DC methods

    A PDF copy of the presentation will be sent to all attendees after the event.

    Presenter
    Dr. Nicolas Murer – Product Manager and Applications Engineer at Bio-Logic SAS, France

    Nicolas Murer is an application and product manager at Bio-Logic Science Instruments. Bio-Logic designs and manufactures potentiostats/galvanostats, battery cyclers and scanning probe electrochemical workstations.

    He received his engineer diploma from Polytechnic Institute of Grenoble in electrochemistry and materials in 2003. He then received his Ph.D. at Université de Bourgogne in 2008. Prior to joining Bio-Logic in 2011, he was a post-doc at the Ohio State University, Columbus.

    Register Now