Ruthenium 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.
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Name : Ruthenium Iodide
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Use : Organic synthesis, photoelectrocatalysis, catalysis, etc.
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Application Areas : Chemical industry, optoelectronics, catalysts, etc.
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Appearance and properties : dark brown or black solid
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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 Iridium Mesh Recycling
Ruthenium iridium mesh is a metal mesh material made of an alloy of ruthenium (Ru) and iridium (Ir), which is widely used in the fields of catalysis and electrocatalysis. It combines the excellent chemical stability, electrical conductivity and high temperature resistance of ruthenium and iridium, and is often used in catalytic reactions in high temperature and highly corrosive environments such as hydrogen production, fuel cells, etc. The mesh structure increases the surface area and improves catalytic efficiency. Ruthenium-iridium mesh plays an important role in reactions such as ammonia synthesis and is a key material in some high-end technologies. Waste ruthenium-iridium mesh is one of the recycling sources of ruthenium-containing waste. Other recycling sources of ruthenium-containing waste include ruthenium wire recycling, ruthenium sheet recycling, ruthenium slag recycling, ruthenium particle recycling, ruthenium ingot recycling, ruthenium powder recycling, and ruthenium-iridium-titanium mesh recycling.
Search : Ruthenium Iridium Mesh RecyclingRuthenium Powder Recycling
Ruthenium powder refers to a fine particle material made of ruthenium metal, usually black or gray in color. It is a solid of ruthenium obtained in the process of refining or grinding, and has a large specific surface area, so it has strong chemical reactivity. Ruthenium powder has important applications in many industrial and scientific research fields, especially in catalysis, electronics, chemical synthesis, etc. Ruthenium powder has excellent catalytic properties, so it is widely used in the manufacture of catalysts, especially in hydrogenation and oxidation-reduction reactions. Ruthenium powder can also be used to manufacture high-end products such as ruthenium-based alloys, electrode materials, hard disks, and electronic components. Ruthenium powder is usually produced by chemical reduction or physical deposition. To meet the requirements of different fields, the particle size and purity must be controlled during the production process.
Search : Ruthenium Powder 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 RecyclingRuthenium Alumina Catalyst Recycling
Ruthenium alumina catalyst is a catalyst that combines ruthenium metal with alumina (Al2O3) support. As a carrier for ruthenium, alumina provides a larger surface area, stabilizes the dispersion of ruthenium metal, and enhances the efficiency of catalytic reactions. Ruthenium alumina catalysts are widely used in chemical reactions such as hydrogenation, catalytic cracking, oxidation reactions, and synthesis gas conversion. Ruthenium has excellent catalytic activity, especially in hydrogenation and oxidation-reduction reactions, so ruthenium alumina catalysts can effectively improve the reaction rate and selectivity. Ruthenium alumina catalysts also have important applications in the fields of petrochemicals, environmental protection, and energy, especially in gas refining and clean energy production. Waste ruthenium alumina catalysts are one of the sources for recycling ruthenium-containing precious metal catalysts. Other sources for recycling ruthenium-containing precious metal catalysts include recovery of ruthenium iodide, recovery of ruthenium chloride, recovery of potassium ruthenium chloride, recovery of ruthenium oxide, and recovery of ruthenium trichloride.
Search : Ruthenium Alumina Catalyst RecyclingProduct Details
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 the reaction as a catalyst. Ruthenium iodide also plays an important role in organic synthesis and photoelectrochemical reactions. Because of its strong catalytic activity, ruthenium iodide has been widely studied and applied in high-tech fields such as electrochemistry, fuel cells, and photoelectrocatalysis.
The application areas of ruthenium iodide are mainly as follows:
1. Catalyst: Ruthenium iodide is often used to catalyze redox reactions, especially in electrochemical catalysis. It acts as a catalyst in fuel cells to promote the oxidation of hydrogen and the reduction of oxygen, improving the efficiency of fuel cells. Ruthenium iodide also plays a catalytic role in organic synthesis, promoting several important reactions such as the hydrogenation and oxidation of olefins.
2. Electrochemistry and fuel cells: In the field of electrochemistry, ruthenium iodide is widely used as a catalyst in various battery systems, such as hydrogen fuel cells, oxygen reduction reactions, and hydrogen production by water electrolysis. Its high catalytic activity and stability can effectively improve the efficiency of these electrochemical reactions and reduce energy losses.
3. Photoelectrocatalysis: Ruthenium iodide is also used in photoelectrocatalysis, especially for water splitting and carbon dioxide reduction reactions. As a photoelectrocatalyst, ruthenium iodide utilizes solar energy to convert water and carbon dioxide into hydrogen and other useful chemicals, promoting the development and utilization of green energy.
4. Organic synthesis: In organic synthesis, ruthenium iodide as a catalyst shows excellent activity in various chemical reactions, especially in some oxidation-reduction reactions and olefin hydrogenation reactions. It can improve the reaction rate and selectivity, reduce the formation of by-products, and optimize the synthesis process.
5. Sensors: Ruthenium iodide also has potential in the field of sensors, especially in electrochemical and chemical sensors. Its high stability and catalytic activity make it advantageous for the detection of gases, ions, and organic compounds.
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. If you need to recycle ruthenium-containing scrap, please call our 24-hour service hotline. Ding Feng precious metals recycling and refining manufacturer has an independent recycling and refining factory that eliminates the profit-making middleman, and has a professional technical team and customer service representatives to provide one-on-one service and ensure customer privacy during the recycling process.