Showing 1–4 of 148 results
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The Future of LFP Batteries From a Patent Landscape Perspective
LFP (lithium iron phosphate) has become a key battery technology in the market, competing with NCM. Being both cheaper than NCM batteries, while also offering superior safety characteristics, they have attracted great interest. China’s leadership in LFP has caused many battery players previously focused on NCM to enter the LFP market as well. While LFP batteries also have some disadvantages compared to NCM, such as lower energy density, poor charging performance at low temperatures, and recycling difficulties, many new technologies are being introduced to solve these problems. This talk will review the future of LFP batteries using patent analysis techniques to understand technological development in this area.
This webinar will focus on the following key topics:
• Why LFP batteries are attracting attention
• Why Chinese players dominate the LFP battery market
• Challenges presented by LFP batteries and potential solutions
• Can Korean and US companies become leaders in LFP technology?Presenters
Inchan Andrew Kwon – Foreign Attorney at Kim & Chang
Sung-Eun Kim – Patent Attorney at Kim & ChangInchan Andrew Kwon is a US-trained and licensed patent attorney who advises technology, chemical, pharmaceutical and biotech clients regarding patent prosecution and patent disputes in Korea, as well as related legal issues including trade secrets, licensing, regulatory compliance, and international trade.
Sung-Eun Kim has been involved in evaluating intellectual property protection and in providing strategic advice to clients, specializing in the areas of materials for electronics, such as secondary batteries and OLED materials, polymer science, and fiber science.
Kim & Chang is a proud sponsor of this event.
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Battery Management System Impacts on Energy Storage
Battery management systems impact the utility, effectiveness, and life of an energy storage system. Passive balancing is less expensive than active balancing, but weaker cells or modules may need to be replaced near the end of the ESS’s lifespan. Active balancing transfers energy from stronger to weaker cells, but at a higher system cost and design complexity.
System down time is associated with both approaches and carries such a high opportunity cost that innovations in this area may be of greater importance than the type of balancing being employed.
Join Nuvation Energy CEO Michael Worry for an exploration of the current state of the art in battery cell balancing, and how BMS innovations will impact the future of stationary energy storage.
This webinar will focus on the following key topics:
• A stationary ESS orientation on battery management
• Understanding balancing-related down time
• Comparing active and passive balancing
• Innovations in battery managementPresenter
Michael Worry – CEO, Nuvation EnergyMichael Worry founded Nuvation in 1997 and has grown the company into a thriving energy storage and engineering services firm with offices in Sunnyvale, California and Waterloo, Ontario Canada. He is the CEO and CTO of Nuvation Energy, a provider of energy controls and battery management solutions for large-scale energy storage. Part of Nuvation’s success is Michael still enjoys being a hands-on engineer and occasionally joins energy storage system installations at client sites.
Nuvation Energy is a proud sponsor of this event.
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R&D Pathways Towards High-Energy Liquid, Semi-Solid and Solid Li-Ion Batteries
With our unique machine learning (ML)-supported innovation and patent analysis approach, we have made in-depth studies of emerging high energy positive & negative active materials, and how they can be combined with liquid, semi-solid or solid electrolytes to obtain improved performance / safety / cost profiles in EVs, consumer electronics, IoT, etc.
This presentation will illustrate R&D pathways that are being pursued by key commercial players, identifying opportunities and risks of varying approaches.
This webinar will focus on the following key topics:
• High energy positive and negative electrode active materials
• Combination with liquid, semi-solid and solid electrolytes
• Opportunities and risks of different material permutations
• Key commercial players pursuing varying approachesPresenter
Pirmin Ulmann – Co-Founder & CEO, B-Science.netPirmin Ulmann is co-founder and CEO of b-science.net, a battery innovation & patent monitoring service that is based on a novel machine learning approach. He obtained a diploma in chemistry from ETH Zurich (Switzerland) in 2004, and a PhD from Northwestern University (USA) in 2009. Thereafter, he was a JSPS Foreign Fellow at the University of Tokyo (Japan). From 2010 to 2016, while working at a major battery materials manufacturer in Switzerland, he was a co-inventor of 7 patent families on lithium-ion batteries. He holds the credential Stanford Certified Project Manager (SCPM), and has co-authored scientific publications with over 1,800 citations.
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Challenges in Processing Large-Scale Sulfide-Based All-Solid-State Batteries
Sulfide-based all-solid-state batteries are one of the most promising next generation energy storages. Especially the chlor-Argyrodite material Li6PS5Cl and ceramic sulfide Li7P3S11 are attractive solid electrolyte materials due to their high ionic conductivity. To date a lot of research in terms of material chemistry and cell design is presented in literature. From a production point of view, process parameter studies and process engineering are rarely addressed. To fabricate a thin-film sheet of the separator or composite cathode, conventional wet coating techniques from lithium-ion battery production can be applied, but processing has to be adapted to the properties of the sulfidic materials. Besides stable production atmospheres, the optimized processing is crucial to achieve the maximum possible energy density.
This webinar will focus on the following key topics:
• Changes in Manufacturing Processes from LIB to ASSB
• Requirements for Stable Production Atmospheres
• Choice of Process Parameters (Mixing, Coating, Drying)
• Correlation between cell energy density and optimizing manufacturing processesPresenter
Celestine Singer – Research Associate at TUMint. Energy Research GmbHCelestine Singer is a Research Associate and PhD Candidate for All-Solid-State Battery Production at TUMint. Energy Research GmbH. Previously, she studied Mechanical Engineering at RWTH Aachen, TU München in Germany and holds a M.Sc. degree.
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