Lagerstrasse 14
8600 Dübendorf
Switzerland
[email protected]
VAT no: CHE-484.869.773
MWST U-ID: CHE-484.869.773
Reg no: CH-100.3.800.523-1
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CHIEF EXECUTIVE OFFICER
Thomas Gebauer
is CEO ad interim at Battrion. He started his career working for 10 years as investment manager for private equity and venture capital firms Schröder & Partner and PEPPERMINT. Financial Partners in Germany. Between 2005-2015 Thomas worked as CFO in Europe, Asia and the U.S. for startups Innolume, Revolt Technology and Biim Ultrasound, implementing growth strategies, raising CHF 120M in funding and executing sell- and buy-side M&A deals. In his last position as Co-founder and Co-CEO of battery startup Volterion, Thomas led the financing and business development efforts and managed the company’s successful acquisition by German automotive supplier Boysen-Group.
CO-FOUNDER
Deniz Bozyigit, PhD
is co-founder of Battrion. Deniz studied electrical engineering at ETH and obtained his PhD in the Laboratory for Nanoelectronics. During his PhD he analyzed the physical processes that limit the energy efficiency in nanomaterials used in solar cells and LEDs. Deniz then pursued a postdoctoral fellowship at the MIT in Cambridge, MA, before returning to Switzerland. Up until end of 2020 Deniz worked as CTO of Battrion.
CHIEF TECHNOLOGY OFFICER / CO-FOUNDER
Martin Ebner, PhD
is Chief Technology Officer, and co-founder of Battrion. After studying electricical and mechanical engineering at ETH Zurich, he received his PhD from the Laboratory for Nanoelectronics under the supervision of Prof. Vanessa Wood where he analyzed the microstructure of porous lithium-ion battery electrodes. As a result of this research, Martin received the ETH Pioneer Fellowship and developed methods to control electrode microstructure to not only increase cell-level energy density and charging rates but also drive down manufacturing costs. This work lead to the founding of the ETH Spin-off Battrion AG.
CHIEF OPERATIONS OFFICER / CO-FOUNDER
Max Kory, PhD
is Chief Operations Officer and co-founder at Battrion. He studied chemistry at ETH Zurich and received his PhD in the group of Prof. Dieter Schlüter at the Institute for Polymer Chemistry. During his PhD he developed a short and scalable synthesis of a novel periodic two-dimensional material. As COO of Battrion he is now in charge of operations at Battrion.
BOARD MEMBER
Frank Wolf
Frank Wolf is CEO of Obrist Engineering and Co-founder of Obrist Powertrain. Mr Wolf started his career as an engineer with an international automotive supplier group in France. After positions in development in Japan and France, he was working in Spain and the USA with another global player for Thermal Management. In 2002, he joined OBRIST Engineering as General Manager and Partner. Since then, he has help the OBRIST Group to grow the global automotive business and has developed the worldwide sales organisation for both companies with daughter companies in the US and China. Frank Wolf is well connected in the automotive industry and advises Battrion in automotive and business related matters.
BOARD MEMBER
Ulrich Ehmes, PhD
Ulrich Ehmes, after studies at EPF Lausanne and TH Darmstadt, graduated and completed his PhD in Electromechanical Design at TH Darmstadt. After 25 years in senior executive management positions in Germany, Switzerland and Portugal, mainly in the Optical and Battery industries, he started his own consulting firm in 2014. He is currently consulting companies in the area of Lithium Ion battery technology and in Interim Management functions on an international level. Customers are start-ups as well as middlesized industrial and stock listed companies. He is also member of supervisory bodies for Federal Research Projects in Germany.
BOARD MEMBER
Franz Fink, PhD
started his career at Motorola Semiconductors, working subsequently as General Manager, CEO, and Board Director at various companies in the semiconductor and energy storage industry before taking on the role as CEO of Maxwell Technologies. At Maxwell he led the business turnaround, focusing on investments in the breakthrough Dry Battery Electrode technology that led to their acquisition by Tesla in 2019.
CHIEF EXECUTIVE OFFICER
Markus Vollstedt
is Chief Executive Officer of Battrion. After studying business administration at University of Bayreuth, he moved to Hong Kong for 5 years to join a major Asian trading company for consumer goods. He assumed various management roles during that time. Thereafter, he moved to Switzerland to work for Metro Holding AG on their platform business models (Scout24) and other products. After working at Oracle Inc. in various sales consulting management roles, Markus became self-employed in the consulting space working on ad interim CxO assignments for many years, founding BiazedBiz GmbH. He is active in the private equity space.
STRATEGY ADVISOR
Benedikt Eska
Benedikt Eska studied physics at the Technical University of Munich. He served as COO and CEO in energy related startups. In this function he inter alia prepared an IPO at London Stock Exchange (AIM) and executed a trade sale of another startup to a tier one automotive. In 2009, he founded his consultancy business with focus on strategy development for technology driven companies. In parallel he holds a lectureship for energy technology at the Munich University of Applied Science for three years.
COATING ADVISOR
Peter Schweizer, PhD
Peter Schweizer received his PhD in Mechanical Engineering from ETH in 1979, and he did postdoctoral research in coating flows at the University of Minnesota with Prof. Scriven. Peter then spent 16 years in the photographic industry (Kodak and Ilford) before changing to the supplier side of coating technology, where he worked for 19 years at TSE Troller Schweizer Engineering and Polytype Converting. Since his retirement he offers his expertise in coating and drying technology as CEO of Schweizer Coating Consulting. Peter is co-editor of the book Liquid Film Coating. In 2018 he was elected president of the European Coating Society.
SCIENTIFIC ADVISOR
Prof. Vanessa Wood
Vanessa Wood is a professor in the Department of Information Technology and Electrical Engineering at ETH Zurich, where she heads the Laboratory for Nanoelectronics, which focuses on using advanced analytical techniques to understand electronic and ionic processes in solution-processed systems. She received her PhD in Electrical Engineering from the Massachusetts Institute of Technology.
Reducing the resistance of the battery leads to lower heat generation during charging and discharging. This decreases the risk for thermal runaways and makes cells with Aligned Graphite® safer. In addition, aligning the graphite particles pushes the onset of lithium plating, a dangerous side process that happens during fast charging to higher charging rates.
The Aligned Graphite® Technology, aligns the graphite particles in the negative electrodes. This shortens the diffusion paths of the lithium-ions and thereby reduces the cell resistance. This has a direct impact on the heat generation within the cell upon charging or discharging. Heat generation can be reduced by up to 40%.
By aligning the graphite particles in the negative electrode the diffusion paths are shortened. This allows for higher charging rates. In fact the Aligned Graphite® Technology can cut charging times in half.
The Aligned Graphite® Technology, aligns the graphite particles in the negative electrodes. This shortens the diffusion paths of the lithium-ions and thereby reduces the cell resistance by up to 40%. This allows for higher discharge rate by up to 40%.
The Aligned Graphite ® Technology can be easily implemented to match production equipment of varying sizes. The Aligned Graphite ® fabrication technology does not reduce production speed. This facilitates scaling.
Battrion’s production process is fully compatible with todays electrode production speeds. In addition, we are working on reaching the production speeds of tomorrow.
Battrion’s Aligned Graphite Technology ® is fully compatible with current cell fabrication processes and materials.
Reducing the resistance of the battery leads to lower heat generation during charging and discharging. This decreases the risk for thermal runaways and makes cells with Aligned Graphite® safer. In addition, aligning the graphite particles pushes the onset of lithium plating, a dangerous side process that happens during fast charging to higher charging rates.
By aligning the graphite particles in the negative electrode the diffusion paths are shortened. This allows for higher charging and discharging rates. In fact the Aligned Graphite® Technology can cut charging times in half and increase discharging rates by up to 40%.
The Aligned Graphite® Technology, aligns the graphite particles in the negative electrodes. This shortens the diffusion paths of the lithium-ions and thereby reduces the cell resistance by up to 50%.
The Aligned Graphite® Technology, aligns the graphite particles in the negative electrodes. This shortens the diffusion paths of the lithium-ions and thereby reduces the cell resistance by up to 50%.
By aligning the graphite particles in the negative electrode the diffusion paths are shortened. This allows for higher charging and discharging rates. In fact the Aligned Graphite® Technology can cut charging times in half and increase discharging rates by up to 40%.
The Aligned Graphite® Technology allows to control the orientation of flake graphite particles. Orienting the flakes vertically leads to short effective lithium transport distances and therefore to very high charging currents without degradation.