Iridium Oxide Coated Titanium Fiber Felt
Iridium Oxide Coated Titanium Fiber Felt for Hydrogen Fuel Cells

Iridium Oxide Coated Titanium Fiber Felt for Hydrogen Fuel Cells

YUXI's 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 oxides 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.
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Iridium Oxide Coated Titanium Anode Plate for Hydrogen Production PEM Electrolyzer

Iridium Oxide Coated Titanium Anode Plate for Hydrogen Production PEM Electrolyzer

The electrolysis of water using a source of renewable energy is the key technology for carbon-free hydrogen production. However, PEM water electrolysis was considered as most promising techniques for high pure efficient hydrogen production and emits only oxygen as byproduct without any carbon emissions. Titanium-based electrodes coated with iridium catalyst are presently recognized as the top anode electrodes in PEM electrolyzers, which exhibit superior electrochemical activity for the hydrogen evolution reaction(HER) in acidic electrolytes. As a leading manufacturer of anodes and electrodes, YUXI’s titanium electrodes are the best option for optimizing output and life.
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Ru-Ir Oxides Coated Titanium Mesh for Circulating Water Descaling

Ruthenium-Iridium Oxides Coated Titanium Mesh for Circulating Water Descaling

Compared to typical chemical scale removal using acid solutions, electrolytic descaling, by means of titanium-based electrodes coated with noble metal oxides, is an effective and non-corrosive method to remove limescale fouling and the associated issues in industrial applications. Regarded as a environmentally friendly and preventive method for scale adsorption and bacteriostasis, YUXI's titanium electrode is ideal for eliminating the water-formed mineral deposits, biological sludge and corrosion —— so as to ensure maximum operating efficiency of water descaling.
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Titanium Bucket Anode for Boiler Descaling

Titanium Bucket Anode for Boiler Descaling

Compared to typical chemical scale removal using acid solutions, electrolytic descaling, by means of titanium-based electrodes coated with noble metal oxides, is an effective and non-corrosive method to remove limescale fouling and the associated issues in industrial applications. Regarded as a environmentally friendly and preventive method for scale adsorption and bacteriostasis, YUXI's titanium anode basket is ideal for eliminating the water-formed mineral deposits, biological sludge and corrosion —— so as to ensure maximum operating efficiency of water descaling.
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Titanium Anode Basket for Heat Exchanger Descaling

Titanium Anode Basket for Heat Exchanger Descaling

Compared to typical chemical scale removal using acid solutions, electrolytic descaling, by means of titanium-based electrodes coated with noble metal oxides, is an effective and non-corrosive method to remove limescale fouling and the associated issues in industrial applications. Regarded as a environmentally friendly and preventive method for scale adsorption and bacteriostasis, YUXI's titanium anode basket is ideal for eliminating the water-formed mineral deposits, biological sludge and corrosion —— so as to ensure maximum operating efficiency of water descaling.
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Titanium Anode Basket for Cooling Tower Water Descaler

Titanium Anode Basket for Cooling Tower Water Descaler

Compared to typical chemical scale removal using acid solutions, electrolytic descaling, by means of titanium-based electrodes coated with noble metal oxides, is an effective and non-corrosive method to remove limescale fouling and the associated issues in industrial applications. Regarded as a environmentally friendly and preventive method for scale adsorption and bacteriostasis, YUXI's titanium anode basket is ideal for eliminating the water-formed mineral deposits, biological sludge and corrosion —— so as to ensure maximum operating efficiency of water descaling.
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Ru-Ir Oxides Coated Titanium Plate for Sodium Hypochlorite Generator

Ruthenium-Iridium Oxides Coated Titanium Plate for Sodium Hypochlorite Generator

Electro-chemical disinfection (ECD) — a method in which chemical oxidants are generated in situ via redox reactions on the surface of an electrode — has attained growing acceptance in recent years as an alternative to traditional chemical dosing disinfection methods. It has proven its reliability in several practical applications, mainly for the production of germ-free water and the disinfection of drinking water, swimming pool water, industrial cooling water, etc. To ensure the electro-chemical reaction effectiveness, titanium electrodes with platinum group metals (PGMs) are generally the best suited to water disinfection. YUXI offers high quality mixed metal oxide coated titanium plates in various sizes for sodium hypochlorite generator cell.
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Ru-Ir Oxides Coated Titanium Plate for Swimming Pool Chlorinator

Ruthenium-Iridium Oxides Coated Titanium Plate for Swimming Pool Chlorinator

Swimming pool sanitation is an important requirement for any pool owner. To maintain high levels of water quality, the bathing water needs continuous disinfection and sterilization. There are several chemical and non-chemical treatment options available in the market. Owing to the side effects of conventional chemical disinfectants, electro-chlorination (also konwn as salt chlorination) has emerged as the most popular non-chemical solution in recent years. Electro-chlorination (EC) is the process of electrolysis of brine solution and softened water to produce an active chlorine solution, containing sodium hypochlorite (NaOCl) and hypochlorous acid (HClO). When the salt chlorinator is energized, the electrodes catalyze reactions with the sodium chloride(NaCl) and water molecules(H2O) at the anode and cathode surfaces to generate the chlorine solution. The production of chlorine is instantaneous which banishes the risks of overproduction. When the chlorine kills or inactivates pathogens and oxidizes organics/contaminants, the chlorine returns to the native state as salt in water. To ensure the electro-chemical reaction effectiveness, titanium electrodes with platinum group metals (PGMs) are generally the best suited to water disinfection. YUXI offers high quality mixed metal oxide coated titanium plates in various sizes for pool chlorinator cell.
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Ru-Ir Oxides Coated Titanium Mesh Electrode for Chlor-alkali Production
Chlor-alkali Membrane Cell Process Unit Structure

Ruthenium-Iridium Oxides Coated Titanium Mesh Electrode for Chlor-alkali Production

The chlor-alkali industry — in which chlorine(Cl2) and sodium hydroxide/caustic soda (NaOH) are produced simultaneously by electrolytic decomposition of saltwater/brine (NaCl) — has become the principal source of chlorine in modern chemical industry. The main process types used for electrolysis of saturated sodium chloride solution are : 1) diaphragm cell process, 2) mercury cell process, 3) membrane cell process. Howerver, the electrolyzing process in an membrane cell with positive and negatively charged electrodes is the most common and economical way preferred. Amongst all the integrated components in the cell, the quality of anode and cathode is such imperative parts that drastically affecting equipment efficiency. With excellent stability and high conductivity, YUXI's titanium mesh plate anodes are the optimum choice for long-term and large scale chlor-alkali production.
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Ruthenium-Iridium Oxides Coated Titanium Mesh Electrode for Seawater Desalination

Ruthenium-Iridium Oxides Coated Titanium Mesh Electrode for Seawater Desalination

Seawater desalination is an effective way to tackle water stress in arid coastal regions. As known to all, electro-dialysis (ED) technology is commercially proven to be one of the promising membrane-based desalination processes to produce fresh water for drinking, irrigation, or industrial use. Electrodialysis utilizes electric potential to move the salts ions through pairs of charged selective membranes, which trap salt in alternating channels. Thus, the saline feedwater can be separated into two streams: a fresh water stream containing a low concentration of dissolved salts and a concentrated brine stream. In essence, electrode material, which is resistant to oxidation and reduction, is one of the key components in this ED stack cell of electro-dialysis desalinator. Owing to its exceptional capability of water treatment and long working life, YUXI's ruthenium-iridium oxide coated titanium mesh has been widely used as both an anode and a cathode in desalination plant.
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Ru-Ir Oxides Coated Titanium Plate Electrode for Cobalt Electrorefining

Ruthenium-Iridium Oxides Coated Titanium Plate Electrode for Cobalt Electrorefining

Electrometallurgy is an important method used in metallurgy for extraction of metals from aqueous solutions by electrolysis. It is usually the final stage in metal production, and therefore is preceded by pyrometallurgical or hydrometallurgical operations. This electro-extraction (EE) process can be used in winning of metals from molten-salt solution (leaching) and purification of crude metals obtained via the hydrometallurgical routes. To meet the requirements of energy efficiency, economic viability and environmental sustainability, electrometallurgy is recognized as an attractive way in industrial community. However, a clean and efficient electrolysis process relies mostly on a reliable inert anode. Thanks to its low oxygen overvoltage and superior structural integrity, YUXI's titanium-based anodes present optimal performance in sulfate electrolytes and good resistance to the chemical effects of oxygen liberated on the anode surface.
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Ir-Ta Oxides Coated Titanium Plate for Copper Foil Electrodeposition

Iridium-Tantalum Oxide Coated Titanium Anode Plate for Electrolytic Copper Foil Production

Known for its excellent heat and electric conductivity, copper foil is an indispensable material in the current electronic industry, first and foremost in the EV and 5G industries. The demand for high-grade copper foils has significantly increased in recent years for their excessive use in electronic appliances —— as the conductive material for printed circuit boards (PCBs), anode material for lithium-ion batteries of electric vehicles, and shielding material for displays. The copper foils are either produced by rolling or electro-deposition (ED). Electro-deposited copper foil is manufactured by depositing copper ions, via electrolysis, onto a rotating titanium drum to form a thin film of high purity foil. The cathode is attached to the drum and the anode plates, fabricated on the drum base, are immersed in the copper electrolyte solution. When an electric field is applied between electrodes, the copper is deposited on the drum surface as it rotates at a very slow pace. The thickness of the copper foil can be controlled by the rotation speed and current density of the drum. YUXI's long-lasting mixed metal oxide coated titanium anode plate should be the best choice in optimizing the manufacturing process of electrolytic copper foil.
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Iridium-Tantalum Oxides Coated Titanium Plate for Hard Chrome Plating

Iridium-Tantalum Oxide Coated Titanium Plate for Hard Chrome Plating

Electroplating is a popular metal finishing and improving process used to prevent corrosion of metal or for decorative purposes. This process results in a thin layer of metal being deposited onto the surface of a workpiece by means of a direct electric current. In electroplating practice, the metal atoms are dissolved from the anode into the electrolyte solution as positive ions and the object to be plated is cathodically polarised. Regarded as an insoluble anode for long-term use, YUXI's titanium electrode coated with noble metal oxides is applied in various electroplating operations, such as gold plating, rhodium plating, chrome plating, copper plating, nickel plating, and zinc plating. When the anode coating has reached the end of its lifetime, the titanium anode can be re-coated after cleaning and, if necessary, repairs.
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Iridium-Tantalum Coated Titanium Anode Basket for Copper Plating
Iridium-Tantalum Coated Titanium Anode Basket for Copper Plating

Iridium-Tantalum Oxide Coated Titanium Anode Basket for Electroplating (Cylindrical)

Electroplating is a popular metal finishing and improving process used to prevent corrosion of metal or for decorative purposes. This process results in a thin layer of metal being deposited onto the surface of a workpiece by means of a direct electric current. In electroplating practice, the metal atoms are dissolved from the anode into the electrolyte solution as positive ions and the object to be plated is cathodically polarised. Regarded as an insoluble anode for long-term use, YUXI's titanium electrode coated with noble metal oxides is applied in various electroplating operations, such as gold plating, rhodium plating, chrome plating, copper plating, nickel plating, and zinc plating. When the anode coating has reached the end of its lifetime, the titanium anode can be re-coated after cleaning and, if necessary, repairs.
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Iridium-Tantalum Coated Titanium Basket for Base Metal Plating

Iridium-Tantalum Oxides Coated Titanium Anode Basket for Electroplating (Square)

Electroplating is a popular metal finishing and improving process used to prevent corrosion of metal or for decorative purposes. This process results in a thin layer of metal being deposited onto the surface of a workpiece by means of a direct electric current. In electroplating practice, the metal atoms are dissolved from the anode into the electrolyte solution as positive ions and the object to be plated is cathodically polarised. Regarded as an insoluble anode for long-term use, YUXI's titanium electrode coated with noble metal oxides is applied in various electroplating operations, such as gold plating, rhodium plating, chrome plating, copper plating, nickel plating, and zinc plating. When the anode coating has reached the end of its lifetime, the titanium anode can be re-coated after cleaning and, if necessary, repairs.
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Ir-Ta Oxides Coated Titanium Anode Basket for Electroplating (Rectangular)

Iridium-Tantalum Oxides Coated Titanium Anode Basket for Electroplating (Rectangular)

Electroplating is a popular metal finishing and improving process used to prevent corrosion of metal or for decorative purposes. This process results in a thin layer of metal being deposited onto the surface of a workpiece by means of a direct electric current. In electroplating practice, the metal atoms are dissolved from the anode into the electrolyte solution as positive ions and the object to be plated is cathodically polarised. Regarded as an insoluble anode for long-term use, YUXI's titanium electrode coated with noble metal oxides is applied in various electroplating operations, such as gold plating, rhodium plating, chrome plating, copper plating, nickel plating, and zinc plating. When the anode coating has reached the end of its lifetime, the titanium anode can be re-coated after cleaning and, if necessary, repairs.
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Iridium-Tantalum Coated Titanium Anode Basket with Hook

Iridium-Tantalum Oxides Coated Titanium Anode Basket for Electroplating (Cylindrical)

Electroplating is a popular metal finishing and improving process used to prevent corrosion of metal or for decorative purposes. This process results in a thin layer of metal being deposited onto the surface of a workpiece by means of a direct electric current. In electroplating practice, the metal atoms are dissolved from the anode into the electrolyte solution as positive ions and the object to be plated is cathodically polarised. Regarded as an insoluble anode for long-term use, YUXI's titanium electrode coated with noble metal oxides is applied in various electroplating operations, such as gold plating, rhodium plating, chrome plating, copper plating, nickel plating, and zinc plating. When the anode coating has reached the end of its lifetime, the titanium anode can be re-coated after cleaning and, if necessary, repairs.
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