Electrocatalyst Solutions

Electrocatalysts are essential for the efficiency of clean energy technologies like electrolyzers and fuel cells. They enhance electrochemical reaction rates, crucial for converting electrical to chemical energy efficiently. Their role is pivotal in sustainable energy systems, impacting performance and energy efficiency across various applications.

Innovate with DCL

High Efficiency Technology: Ideal for AEM electrolyzers, renewable energy storage, industrial processes, and fuel cell technology.

Highly Durable: Our electrocatalyst coatings and Aemion® membranes are optimized for strong alkaline stability and long-term operation with minimal degradation.

High Catalytic Activity: Ensures efficient electrolysis for maximum hydrogen production.

Custom Designs: Available in various sizes and with different catalyst loadings to meet specific performance requirements.

High Efficiency of AEM Electrolysis

DCL’s CCS and CCM electrodes demonstrate exceptional performance under various operational conditions. The polarization curve and voltage stability over extended operation periods underscore the reliability and efficiency of DCL’s electrocatalysts. DCL’s AEM electrocatalyst technology closely matches the efficiency of established PEM systems, operating effectively in an alkaline medium. This innovation allows for the use of non-precious metal catalysts, maintaining high performance in electrochemical reactions without the cost and environmental impact of precious metals.

DCL’s extensive experience in nanomaterial applications has driven the development of high-performance electrocatalyst technology. Our state-of-the-art hydrogen lab is dedicated to the refinement of electrolyzer components, ensuring our products meet the rigorous demands of hydrogen production.

Nanomaterial & Membrane Experts

Catalyst Experts

The R&D team at DCL International Inc. are leaders in technological innovation, focused on developing new materials and processes to advance emission reduction and clean energy systems. This internal capability ensures that we remain at the cutting edge of sustainable technology, anticipating and shaping the future of energy.

Catalyst Coated Substrate (CCS)

DCL’s CCS electrodes come in standard and custom sizes, comprising high stability catalyst layers coated onto gas diffusion layers (GDL) and porous transport layers (PTL). These substrates are engineered to provide superior performance and longevity in demanding applications.

Catalyst Coated Membranes (CCMs)

DCL’s CCMs are available in standard and custom sizes, featuring high stability catalyst layers coated onto Aemion® membranes. These membranes are designed to deliver exceptional efficiency and durability for water electrolysis.

Electrolyzers
and Fuel Cells

DCL’s electrocatalysts are pivotal in enhancing the performance of electrolyzers and fuel cells, key components in hydrogen production and clean energy systems. By improving the efficiency of these devices, our AEM technology significantly reduces operational costs and energy consumption. This makes hydrogen energy a more viable and scalable option for a range of applications, from industrial processes to transportation.

Contribution to Clean Energy
and Decarbonization

DCL’s advanced AEM electrocatalyst technology is central to clean energy initiatives, catalyzing the shift towards efficient, cost-effective, and low-carbon hydrogen production. This advancement significantly contributes to decarbonization efforts, reducing the dependency on precious metals and cutting down carbon emissions in electrochemical processes. The improved efficiency of our electrocatalysts not only furthers global decarbonization goals but also establishes DCL’s technology as a fundamental element in the evolution of renewable energy systems, promoting a sustainable and greener future.

Higher Efficiency and
Cost Savings for Industries

DCL’s AEM technology represents a significant economic advancement in clean energy applications. By substituting precious metal catalysts with more cost-effective and abundant alternatives, AEM systems provide considerable material cost reductions. This transition is bolstered by the operational durability and reduced maintenance demands of our systems, further enhancing the overall economic benefits. The substantial savings in both initial investment and long-term operational costs position DCL’s AEM technology as a financially prudent choice. It supports industries in achieving sustainable practices, offering a pathway to enhanced energy efficiency and economic viability without compromising environmental integrity.

DCL’s advanced AEM electrocatalyst technology is central to clean energy initiatives, catalyzing the shift towards efficient, cost-effective, and low-carbon hydrogen production. This advancement significantly contributes to decarbonization efforts, reducing the dependency on precious metals and cutting down carbon emissions in electrochemical processes. The improved efficiency of our electrocatalysts not only furthers global decarbonization goals but also establishes DCL’s technology as a fundamental element in the evolution of renewable energy systems, promoting a sustainable and greener future.

Contribution to
Clean Energy and Decarbonization

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