TOPTITECH has developed the thinnest porous titanium plate on the market for use as an anode diffusion layer in standard PEM electrolysers. Metallic or titanium-based electrodes serve as the flow field or diffusion material in standard PEM electrolyzers, particularly on the oxygen (anode) side, to ensure improved mass transport and a compact design. The use of carbon-based gas diffusion layers (GDLs) is not viable at the anode due to immediate carbon oxidation to CO2 (under acidic conditions) or carbonate ions (under basic conditions). To address this limitation, the titanium porous transfer layer emerges as an optimal choice for the diffusion medium. Additionally, the titanium porous transfer layer facilitates electrical connectivity between the anode catalyst layer and the bipolar plate or current collector component. Specification Material: Pure Titanium powder Thickness: 0.1mm Porosity: Above 60% Pore size: 60 microns Size: Customized Technique: Sintering Features: 1. Porous Structure: The ultra-thin titanium plate features a precisely engineered porous structure, resulting in a high surface area-to-volume ratio. This unique design allows for efficient gas diffusion and electrolyte flow, enhancing the electrochemical reactions within the electrolyser. 2. Ultra-Thin Design: With its ultra-thin profile, the plate minimizes the electrical and mass transfer resistance, improving the overall efficiency of the PEM electrolyser. Its thinness also enables compact and lightweight electrolyser designs. 3. High Purity Titanium: The plate is made from high-purity titanium, ensuring excellent corrosion resistance and long-term durability in harsh electrolysis environments. It maintains its structural integrity and performance even under high current densities and extended operating periods. 4. Customizable Specifications: The ultra-thin porous titanium plate can be tailored to specific dimensions, including length, width, and thickness, to suit various PEM electrolyser configurations and designs. Applications: 1. Hydrogen Production: The ultra-thin porous titanium plate is primarily used as the cathode and anode electrodes in PEM electrolysers for hydrogen production. Its high surface area and efficient gas diffusion properties promote the electrolysis of water, resulting in the generation of high-purity hydrogen gas. 2. Energy Storage: The plate can also be employed in energy storage systems, particularly in regenerative fuel cells. It facilitates the conversion of electrical energy into chemical energy by allowing efficient hydrogen production during the charging phase and subsequent power generation during the discharging phase. 3. Research and Development: The ultra-thin porous titanium plate finds applications in academic and industrial research laboratories for studying electrochemical reactions, testing new catalysts, and optimizing the performance of PEM electrolysers.
