Ruthenium Target Recycling
Ruthenium target refers to a ruthenium metal target used in thin film deposition processes, typically in physical vapor deposition (PVD) techniques such as magnetron sputtering. In this process, the ruthenium target is placed in a target chamber and bombarded with high-energy particles, releasing ruthenium atoms that are then deposited on the surface of a substrate to form a thin film. Due to its high catalytic activity, excellent corrosion resistance and high-temperature stability, ruthenium targets are widely used in electronics, semiconductors, optical coatings, batteries and new energy fields. Especially in the production of high-performance devices such as electrode materials, fuel cells and solar cells, ruthenium targets can provide high-quality films and improve device performance and reliability.
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Name : Ruthenium Target
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Use : Manufacturing of electrode materials, fuel cells, solar cells, etc.
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Application Areas : Electronics industry, semiconductor field, new energy field, etc.
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Appearance and properties : target
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Settlement Method : On-site payment
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Recycling Type :Ruthenium recycling
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Door-to-door recycling:worldwide
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Customer service: Free content testing and door-to-door recycling
Ruthenium Target Recycling
Ruthenium target refers to a ruthenium metal target used in thin film deposition processes, typically in physical vapor deposition (PVD) techniques such as magnetron sputtering. In this process, the ruthenium target is placed in a target chamber and bombarded with high-energy particles, releasing ruthenium atoms that are then deposited on the surface of a substrate to form a thin film. Due to its high catalytic activity, excellent corrosion resistance and high-temperature stability, ruthenium targets are widely used in electronics, semiconductors, optical coatings, batteries and new energy fields. Especially in the production of high-performance devices such as electrode materials, fuel cells and solar cells, ruthenium targets can provide high-quality films and improve device performance and reliability.
Search : Ruthenium Target RecyclingRuthenium Iodide Recycling
Ruthenium iodide (RuI₃) is an inorganic compound of ruthenium, usually a dark brown or black solid. It is a ruthenium(III) compound produced by the reaction of ruthenium with iodine, and has high stability and good chemical properties. Ruthenium iodide has important applications in the field of catalysis, especially in certain redox reactions, where it can significantly improve the efficiency of reactions as a catalyst. Ruthenium iodide also plays an important role in organic synthesis and photoelectrochemical reactions. Due to its strong catalytic activity, ruthenium iodide has been widely studied and applied in high-tech fields such as electrochemistry, fuel cells, and photoelectrocatalysis. Waste ruthenium iodide is one of the raw materials for recycling ruthenium-containing precious metal catalysts. Other raw materials for recycling ruthenium-containing precious metal catalysts include recovery of ruthenium oxide, recovery of ruthenium chloride, recovery of potassium ruthenium chloride, recovery of ruthenium acetate, recovery of ruthenium trichloride, and recovery of bis(cyclopentadienyl)ruthenic acid.
Search : Ruthenium Iodide RecyclingRuthenium Slag Recycling
Ruthenium slag refers to the solid waste or residues produced after ruthenium metal reacts with other substances during the smelting, refining, or use of ruthenium. As ruthenium is a precious metal, it is usually smelted under conditions of high temperature and pressure. Therefore, ruthenium slag often contains small amounts of other metallic impurities, such as iridium and platinum, in addition to ruthenium. The composition and properties of ruthenium slag may vary depending on the specific process by which it is produced, and it usually needs to be recovered and processed in a specific way to extract the ruthenium and other precious metals it contains. Ruthenium slag may also be used as a by-product in catalysis in some cases, or chemically processed to produce other ruthenium alloy materials. Waste ruthenium slag is one of the recycling pathways for ruthenium-containing waste. Other recycling pathways for ruthenium-containing waste include ruthenium water recycling, ruthenium slurry recycling, ruthenium slag recycling, ruthenium powder recycling, ruthenium gold recycling, ruthenium wire recycling, and ruthenium block recycling.
Search : Ruthenium Slag RecyclingRuthenium Acetate Recycling
Ruthenium acetate (Ru(OAc)₃) is an organometallic compound of ruthenium, usually a red or brown powder, which is widely used in chemical synthesis and catalysis. It is a ruthenium(III) complex produced by the reaction of ruthenium with acetic acid, and is often used in chemical reactions such as catalytic oxidation reactions, hydrogenation reactions, and hydrogenation reactions, with high catalytic activity and selectivity. Ruthenium acetate has shown excellent application potential as a catalyst for important chemical reactions in organic synthesis, especially C-H bond activation and olefin addition reactions. Waste ruthenium acetate is one of the recycling sources of ruthenium-containing precious metal catalyst waste. Recycling of ruthenium-containing precious metal catalyst waste also includes ruthenium oxide recycling, ruthenium chloride recycling, ruthenium iodide recycling, ruthenium zinc catalyst recycling, ruthenium aluminum oxide catalyst recycling, ruthenium carbon recycling, etc.
Search : Ruthenium Acetate RecyclingProduct Details
Ruthenium target refers to a ruthenium metal target used in thin film deposition processes, usually in physical vapor deposition (PVD) techniques such as magnetron sputtering. In this process, the ruthenium target is placed in a target chamber, and ruthenium atoms are released by the bombardment of high-energy particles and deposited on the surface of a substrate to form a thin film. Ruthenium targets are widely used in electronics, semiconductors, optical coatings, batteries and new energy fields due to their high catalytic activity, excellent corrosion resistance and high temperature stability. Especially in the production of high-performance devices such as electrode materials, fuel cells and solar cells, ruthenium targets can provide high-quality films and improve the performance and reliability of the devices.
Specific applications of ruthenium targets include:
1. Semiconductor industry: In semiconductor manufacturing, ruthenium targets are often used for thin film deposition, especially in the production of integrated circuits (ICs) and memory devices. Ruthenium films have excellent electrical conductivity, corrosion resistance and high temperature resistance, and can be used to produce electrodes, conductive layers and connecting layers. These properties of ruthenium make it essential for its use in high-performance chips, sensors and microelectronic devices.
2. Optical coating: Ruthenium targets are used to prepare high-performance optical coatings, especially in the manufacture of mirrors, optical sensors, lasers and other equipment. The excellent hardness and chemical stability of ruthenium films allow them to maintain good performance in extreme environments, which is especially important for high-end optical and high-precision instruments.
3. Fuel cells: Ruthenium targets are used to manufacture electrodes for fuel cells, especially proton exchange membrane fuel cells (PEMFCs). As a catalytic material, ruthenium thin films can effectively promote the oxidation of hydrogen and the reduction of oxygen. The excellent catalytic activity and high-temperature and corrosion resistance of ruthenium films allow fuel cells to operate stably under high-efficiency conditions for a long time.
4. Solar cells: Ruthenium targets are used to manufacture electrode materials for solar cells. Ruthenium thin films can effectively improve the conductivity and stability of batteries, especially in high temperature and humidity environments. The application of ruthenium materials helps to improve the efficiency and service life of solar cells, and is one of the key materials for producing high-efficiency solar cells.
5. Electronics: Ruthenium targets are also used to manufacture various electronic components, such as capacitors, electrical contacts, and connectors. In these electronic devices, ruthenium thin films provide stable conductivity and excellent electrical properties. Ruthenium's corrosion resistance allows these electronic devices to operate stably for a long time even in harsh environments.
6. Sensors and displays: Ruthenium targets are also widely used in the manufacture of high-performance sensors and displays. Especially in temperature sensors, pressure sensors, and chemical sensors, ruthenium films can improve the sensitivity and response speed of devices due to their excellent electrical conductivity and chemical stability. In addition, ruthenium is also used as a conductive material in some OLED displays and displays.
7. Catalyst materials: The main application of ruthenium targets is thin film deposition, but it may also be applied in certain catalytic reactions. Ruthenium thin films can be used in electrocatalytic reactions such as hydrogen generation and oxygen reduction reactions, so ruthenium targets also have certain application value in the energy field.
Sputtering ruthenium target recycling belongs to precious metal target recycling. Precious metal target recycling also includes gold target recycling, ruthenium gold target recycling, iridium gold target recycling, silver target recycling, indium target recycling, etc. If you need to recycle ruthenium-containing scrap, please call our 24-hour service hotline. Dingfeng precious metal recycling and refining manufacturers are equipped with independent recycling and refining plants that eliminate the profit-making middleman, and have a professional technical team and customer service personnel to provide one-to-one service and ensure customer privacy during the recycling process.