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Separation Science
Separation Science
Separation Science je přední online zdroj metod, aplikací, řešení problémů a školení v chromatografii a hmotnostní spektrometrii.
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Enhancing Lithium-Ion Battery Production: Automated and Sustainable Elemental Analysis in Mining and Manufacturing using ICP-OES

ZÁZNAM | Proběhlo Čt, 3.10.2024
Udržitelná těžba lithia, klíčové součásti dodavatelského řetězce lithium-iontových baterií.
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Separation Science: Enhancing Lithium-Ion Battery Production: Automated and Sustainable Elemental Analysis in Mining and Manufacturing using ICP-OES
Separation Science: Enhancing Lithium-Ion Battery Production: Automated and Sustainable Elemental Analysis in Mining and Manufacturing using ICP-OES

Join us for an insightful webinar on the sustainable extraction of lithium, a crucial component in the lithium-ion battery supply chain.

Learn from industry experts about the advantages of Direct Lithium Extraction (DLE) from mineral-rich brines over traditional hard rock mining methods. Discover how managing elemental impurities is essential for maximizing battery efficiency, yield, and safety. Gain insights into advanced techniques like ICP-OES and the ADS 2 auto-diluter system used to quantify major and minor element concentrations in brine samples and manufacturing chemicals.

By attending this webinar, you will learn about:

  • The latest innovative sustainable lithium extraction techniques using Direct Lithium Extraction (DLE) from mineral-rich brine, a method that is more environmentally friendly and efficient compared to traditional hard rock mining
  • How to prepare samples and perform elemental analysis by atomic spectroscopy for complex matrix samples across the lithium-ion battery supply chain
  • Enhancing the sustainability, efficiency, and accuracy of your ICP-OES elemental analysis with new automation capability

Key Topics

  • Overview of emerging lithium extraction methods, including innovative and eco-friendly processes
  • How elemental analysis by atomic spectroscopy guides the optimization in the extraction process
  • Learn about sample preparation and ICP-OES analysis of raw materials and manufacturing chemicals in the lithium-ion battery value chain

Who Should Attend?

  • Chemical engineers and production engineers working in lithium-rich brine extraction
  • Production engineers working with lithium-ion battery cathode and electrolyte component production
  • Research scientists working around the lithium-ion battery supply chain.
  • Industry consultants advising companies around lithium extraction and battery manufacturing
  • Quality assurance and control specialists focusing on improving analytical accuracy

Presenter: Ross Ashdown (Marketing Manager, Optical Atomic Spectroscopy, Agilent Technologies)

Ross has a Master of Applied Science in Analytical Chemistry from RMIT University Australia and has over 32 years of experience in atomic spectroscopy, covering instrument operation, applications support, technical support, product management, and marketing management. Ross is based in Agilent’s Spectroscopy Technology Innovation Centre (S.T.I.C.) in Melbourne, Australia. The STIC is Agilent’s global research and development centre for atomic and molecular spectroscopy.

Presenter: Jeremy Patt (Chief Technology Officer, Summit Nanotech)

Jeremy Patt is Chief Technology Officer at Summit Nanotech. The company, founded in 2018, is using its patented technology to extract lithium from brines at the lowest levelized cost of production and with the lowest environmental footprint. Jeremy has held numerous global leadership positions in the chemical industry – building and advancing research programs, pilot plants, and first-of-kind manufacturing plants for companies including Dow Chemical and Sherwin Williams. He has led the development and successful commercialization of processes across a broad range of technologies, including high-volume chemical production, catalysis, adsorption, extraction, membranes, filtration, heat exchange, drying, solids handling, and water treatment. Jeremy holds a BSE and PhD in Chemical Engineering, both from the University of Michigan, Ann Arbor. He is an inventor on 18 U.S. patents.

Presenter: Ana Gonzalez (Atomic Spectroscopy Application Scientist, Agilent Technologies)

Ana is based in Wilmington, Delaware, USA. With a robust background in atomic spectroscopy instruments, Ana boasts international experience in the development and validation of analytical methods tailored for the geochemical industry. Her expertise extends to lithium-ion battery technology, where she has made significant contributions to the comprehensive understanding of lithium brine characterization in South America, as well as the analysis of lithium battery components such as cathodes, anodes, and electrolytes. Ana's proficiency also encompasses molecular spectroscopy and chemometrics, as evidenced by her notable publications in these fields. She holds a Master of Science degree in Plant Biotechnology from CINVESTAV, México, complemented by a Bachelor of Science degree in Biotechnology Engineering. With her diverse skill set and passion for advancing scientific knowledge, Ana continues to drive innovation and excellence in her field.

Presenter: Ruby Bradford (Atomic Spectroscopy Application Chemist, Agilent Technologies)

Ruby is an application chemist at Agilent Technologies, having worked in the Atomic Spectroscopy Division since 2020. She works frequently on the analysis of fine chemicals using techniques such as inductively coupled plasma-optical emission spectroscopy (ICP-OES) and is experienced in method development and sample preparation techniques in the advanced materials sector. She has a particular passion for the booming lithium-ion battery market and promoting a sustainable future through electrification.

Separation Science
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LabRulez s.r.o. Všechna práva vyhrazena. Obsah dostupný pod licencí CC BY-SA 4.0 Uveďte původ-Zachovejte licenci.