Hydrogen: The Future of Sustainable and Secure Energy
Challenges to Adoption
High production costs of hydrogen, a lack of supporting infrastructure and technological limitations are hindering the mass adoption of hydrogen today.
Flexible, Long Lasting
Hydrogen is a versatile energy carrier that can be used in various applications. It is also effective for long duration energy storage without degradation.
High Energy Density
Hydrogen has the highest energy content per unit of mass of any fuel , which makes it the superior energy carrier when it comes to gravimetric energy density. This is particularly important for applications where weight and payload matters.
Clean, Zero-emission
Hydrogen is a clean energy vector that does not produce greenhouse gases or pollutants when used as a fuel. Its potential for renewable production through processes such as water electrolysis make it a sustainable energy solution with minimal environmental impact.
Abundant and Secure
Hydrogen is one of earth's most abundant elements and can be produced from various sources, including water, natural gas, and biomass. Its wide availability contributes to a future of energy security and enhances energy independence.
Overcoming commercialisation barriers through Material Science
Material science is a critical key to addressing challenges related to hydrogen production, storage, transportation, and use.
Enhancing Performance
Nanomaterials can offer improved surface area, reactivity, conductivity, electrochemical, thermal and other electrochemical or mechanical properties.
These help ensure effective system performance, such as power efficiency and form factors.
Ensuring Long Term Reliability
Ensuring product reliability across the production, storage and use of hydrogen relies on minimising component degradation and failure.
Nanotechnology can enable higher degrees of hydrogen impermeability, anti-stress and anti-corrosion properties across harsh acidic, alkaline or high-temperature operating conditions.
Elevating Lower
Cost Materials
Advancements on the material level can enhance the properties more abundant and affordable substrates such as stainless steel.
Using precious-metal-free materials are critical for the long-term commercialisation of new technologies.
过滤阴极真空电弧 (FCVA)
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星氢源FCVA技术是一项国际专利技术,该技术允许在室温下进行真空镀膜沉积,解决了传统镀膜技术不可避免的由于高温沉积而引发的众多问题,并允许在更广泛的材料上进行镀膜。
该技术为终端市场(如新能源、汽车、精密工程等)以及目前的氢能市场创造了机遇,SydroDIAMOND®为双极板量身定制高性能涂层。
Find out more on the group's technology HERE
过滤阴极真空电弧 (FCVA)
星氢源FCVA技术是一项国际专利技术,该技术允许在室温下进行真空镀膜沉积,解决了传统镀膜技术不可避免的由于高温沉积而引发的众多问题,并允许在更广泛的材料上进行镀膜。
该技术为终端市场(如新能源、汽车、精密工程等)以及目前的氢能市场创造了机遇,SydroDIAMOND®为双极板量身定制高性能涂层。