Battery nickel foam is a porous structure made from high-purity nickel material, widely used as an electrode material in batteries. Its three-dimensional open-cell structure provides greater specific surface area and higher electron and ion conductivity for battery reactions, significantly enhancing overall battery performance. Due to its outstanding electrochemical properties, battery nickel foam is a critical component in various battery types, including nickel-metal hydride (Ni-MH), nickel-cadmium (Ni-Cd), and lithium-ion batteries.

Nickel foam for hydrogen production is a highly efficient electrochemical catalyst material made of high-purity nickel with a three-dimensional porous structure and an extremely high specific surface area. This nickel foam is widely used as a catalyst or catalyst support in hydrogen production processes such as water electrolysis and reforming. Its unique physical and chemical properties provide excellent catalytic activity and durability in hydrogen production.

Nickel mesh for hydrogen production is a porous metal material made of high-purity nickel, specifically designed for electrochemical applications such as water electrolysis for hydrogen production. It has excellent electrical conductivity, corrosion resistance, and mechanical strength. The mesh structure provides a large specific surface area, which helps enhance the efficiency of electrolysis, making it an ideal electrode material for hydrogen production. Nickel mesh is widely used in water electrolysis, fuel cells, and other electrochemical reaction fields.

Nickel sintered mesh is a porous metal material made from multiple layers of high-purity nickel mesh through a high-temperature sintering process. The sintering process permanently bonds the metal mesh layers together, forming a solid and stable multilayer structure. Nickel sintered mesh combines the high electrical conductivity, excellent corrosion resistance, and superior mechanical properties of nickel, making it suitable for demanding industrial environments such as filtration, catalysis, battery applications, and high-temperature gas treatment.

Knitted nickel mesh is a mesh-like metal material made from high-purity nickel wires through a knitting process. It features excellent flexibility, electrical conductivity, and corrosion resistance. Due to its unique knitted structure, knitted nickel mesh has three-dimensional porosity and good mechanical properties, making it perform exceptionally well in fields such as electrochemistry, filtration, gas-liquid separation, shielding, and shock absorption. Knitted nickel mesh combines the excellent properties of traditional nickel wire mesh with the flexibility of the knitting process, making it an ideal choice for demanding environments and multifunctional applications.

Nickel felt is a metal fiber material made from high-purity nickel fibers through a non-woven process, featuring a three-dimensional porous structure and a very high specific surface area. Nickel felt retains the high electrical conductivity, excellent corrosion resistance, and good mechanical properties of nickel, while also being lightweight, breathable, and flexible. Its unique structure makes nickel felt highly effective in applications such as battery electrodes, fuel cells, catalyst supports, high-temperature filtration, and electromagnetic shielding, making it a multifunctional, high-performance material.

Titanium foam is a three-dimensional porous metal material made from high-purity titanium, featuring unique properties such as lightweight, high strength, excellent corrosion resistance, and good biocompatibility. Its porous structure and superior mechanical properties make it an ideal material for many advanced applications, including aerospace, biomedical, chemical, energy storage, and catalysis.

Platinum-coated titanium felt is a highly conductive and corrosion-resistant material used in hydrogen production, electrolysis, fuel cells, and PEM electrolyzers. It enhances catalytic efficiency and durability, making it ideal for high-performance energy applications. Custom sizes and specifications are available for industrial use.

Platinum-Plated Titanium Foam is a high-performance porous material featuring a titanium foam substrate uniformly coated with high-purity platinum. It offers excellent corrosion resistance, high electrical conductivity, and superior catalytic activity, making it ideal for applications in water electrolysis, hydrogen production, fuel cells, PEM electrolyzers, and electrochemical catalysis.

We offer customized pore sizes, thicknesses, and platinum loadings to meet various industrial and research needs. Contact us for more details!

Iridium-Plated Foam Titanium is a high-performance porous material designed for hydrogen production, electrolysis, and fuel cells. It features a titanium foam structure coated with high-purity iridium, providing superior corrosion resistance, excellent conductivity, and enhanced catalytic efficiency. This material is widely used in PEM electrolyzers, fuel cells, and advanced electrochemical applications.

We offer customized sizes, pore structures, and iridium loadings to meet specific industrial and research needs. Contact us for more details!

Platinum-Plated Titanium Mesh is a high-performance electrode material featuring a titanium mesh substrate coated with high-purity platinum. It provides excellent corrosion resistance, high electrical conductivity, and superior catalytic efficiency, making it ideal for water electrolysis, hydrogen production, fuel cells, and catalyst support applications.

Due to its lightweight and durable structure, platinum-plated titanium mesh ensures long-term stability in acidic and alkaline environments, making it a preferred choice for PEM electrolyzers, fuel cells, and other electrochemical systems.

We offer customized mesh sizes, platinum loadings, and thicknesses to meet various industrial and research needs. Contact us for more details!

Iridium-Coated Titanium Felt is a high-performance porous material designed for electrolysis, hydrogen production, and fuel cells. It features a titanium felt substrate with a uniform iridium coating, offering excellent corrosion resistance, high electrical conductivity, and superior catalytic activity. This material is widely used in proton exchange membrane (PEM) electrolyzers, fuel cells, and oxygen evolution reaction (OER) applications, ensuring high efficiency and long-term durability.

We provide customized sizes, pore structures, and iridium loadings to meet specific industrial and research needs. Contact us for more details!