LIVE WEBINAR ON APRIL 30th at 11AM ET/8AM PT
Enabling Tomorrow's Batteries Through Comprehensive Materials Analysis
Improving the speed, scale, scope, and accuracy of battery material analysis, enables highly effective characterisation of both battery components and systems. This comprehensive qualification of the properties, purity, composition, quality, and behaviour of cell materials accelerates the optimisation of the five key performance criteria:
Energy Density | Power Density | Safety | Lifespan | Cost
In this live webinar, we will discuss the use of electron microscopy-based analysis in combination with confocal Raman microscopy/spectroscopy, atomic force microscopy (AFM) and nuclear magnetic resonance (NMR) to provide a holistic and correlated view of battery materials. Case studies across R&D and manufacturing will include:
- Determining root cause of cell failure from correlated microscopy, elemental, structural and chemical analyses
- How nanoscale materials composition and electrical properties link manufacturing processes to final cell performance
- Characterisation of active material slurries in process to optimise anode and cathode coatings
- Quantifying ion diffusion and mobility to qualify solid and liquid electrolyte performance
RSVP Below:
FEATURED SPEAKER
Dr. James T. Sagar
James is the Business Manager for the Materials Analysis Group at Oxford Instruments. He also takes a lead on Oxford Instruments’ solution development and strategic marketing for the battery industry. James has held several positions within Oxford Instruments over the last 8 years with a focus on several different technologies including electron microscopy and nuclear magnetic resonance. James had a particular focus on using these technologies to provide deeper understanding of battery materials including product managing the world’s first EDS detector capable of detecting lithium x-rays and the world’s first broadband benchtop NMR spectrometer capable of characterising key battery nuclei in a single instrument. Before joining Oxford Instruments, James carried out post graduate research at University College London and a PhD at the University of York, with a focus on developing materials with unusual electron transport properties.
.png?width=1200&height=1200&name=dark%20400x400%20(2).png "dark 400x400 (2)")
This Program is Provided By Volta Foundation
Please reach out to us if you have a topic that you would like to discuss with our audience of 50,000+ battery professionals!
Privacy Policy
Your privacy is very important to us, which is why we make sure you are always in control of what we do with your personal information. If you proceed by clicking ‘Register’ above, the information you supply will be submitted to Oxford Instruments for the purposes of enabling you to access the webinar and for marketing and communication purposes.
Oxford Instruments will store and handle your data according to their own Privacy Policy: https://www.oxinst.com/corporate-content/privacy
If you want to update or remove the information stored by Oxford Instruments or withdraw your consent for Oxford Instruments to use or retain your information, please contact Oxford Instruments directly at privacy@oxinst.com
By electing to submit this information, you are providing your consent to the information being submitted to Oxford Instruments which will enable you to take part in the webinar.
The information will be submitted to Oxford Instruments – we will not send this information to any other third party.