In the burgeoning field of hydrogen technology and renewable energy, innovative materials and products often hold the key to significant advancements. Therefore, we offer high-performance, durable and recyclable thermoplastic graphite bipolar plates as a superior alternative to metals and thermosets. Leveraging over 50 years of expertise in high-performance plastics, and in close collaboration with the Centre for Fuel Cell Technology in Duisburg, Germany (ZBT), we have developed advanced compounds for bipolar plates used in fuel cells, redox flow batteries and electrolyzers.
Compared to their metallic and thermoset counterparts, our bipolar plates provide advantages such as corrosion and chemical resistance, design flexibility, and conductivity. As your development partner, we support you from material selection to the final product, offering continuous research and development to enhance the durability, cost-efficiency, and sustainability of industrial applications.
Our thermoplastic bipolar plates provide a high-quality alternative to conventional metallic and thermoset materials. With outstanding properties such as electrical and thermal conductivity, chemical resistance, and surface quality, they set new standards. As a development partner, we support our customers with bespoke solutions from prototype development to series production, meeting the diverse demands of industrial and mobile applications.
Ensinger is your reliable partner for bipolar plates, from material and concept development to mass production. We offer comprehensive solutions, starting with the development and production of materials, prototype and production tools, to advanced design options for optimised cooling channels and increased contact surfaces. This holistic expertise allows us to provide customised solutions that meet the specific requirements of various applications.
We focus on specialised solutions validated through field trials and proven in a wide range of applications. In close cooperation with the ZBT, we develop highly conductive materials that deliver optimal performance both stationary and mobile.
