Platinum Slurry Recycling

Platinum nitrate is an inorganic compound that typically appears as a colorless crystalline solid or a white crystalline powder and is highly soluble in water. As an important chemical substance, platinum nitrate has a variety of applications. It is widely used as a catalyst in the chemical industry, particularly in automotive exhaust treatment systems, where it helps purify emissions.
Platinum nitrate also finds applications in materials science and organic synthesis, such as being used as a component in the electronics industry and serving as a catalyst or ligand in organic synthesis reactions.
Spent platinum nitrate is one of the sources for recovering platinum-based precious metal catalysts. The sources of platinum precious metal catalyst recovery include platinum oxide recovery, chloroplatinic acid recovery, platinum on carbon recovery, platinum iodide recovery, platinum asbestos recovery, platinum resin recovery, and platinum chloride recovery.

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Radiofrequency ablation catheters are medical devices used for medical treatment, typically employed in radiofrequency ablation surgery. Radiofrequency ablation is an interventional therapeutic method that uses heat energy generated by high-frequency current to destroy or remove abnormal tissue, commonly used for treating tumors, arrhythmias, and other diseases. Radiofrequency ablation catheters generally consist of a thin, elongated shaft, with an radiofrequency electrode attached to the end. This electrode is placed in the target area within the patient, and radiofrequency energy is transmitted through the catheter to the electrode location. When current passes through the tissue, it generates heat energy, leading to tissue degradation or solidification. This method is often used to treat abnormal electrical activity in heart tissue, such as atrial fibrillation, or to ablate tumors in the liver, kidneys, etc.

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Platinum carbon usually refers to a carbon catalyst supported by platinum, which is a material that fixes platinum particles on an active carbon support. Platinum is a precious metal with good catalytic activity, while carbon acts as a support material that helps enhance the catalyst's stability and surface area. In platinum-carbon catalysts, platinum is typically dispersed in the form of nanoparticles on the carbon support. This structure helps increase the specific surface area of platinum, improving the efficiency of catalytic reactions. Platinum-carbon catalysts are commonly used in electrochemical reactions of hydrogen and oxygen, especially in fuel cells. A fuel cell is a device that converts chemical energy into electrical energy, where platinum-carbon catalysts are widely used in hydrogen and oxygen reactions to generate water, thus producing electrical energy. Platinum-carbon catalysts are composite materials used to improve catalytic activity and stability, widely applied in the chemical industry and energy sector.

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Platinum-asbestos catalysts typically refer to catalysts made by loading platinum (Pt) onto asbestos (or other supports). A catalyst is a substance that accelerates the rate of a chemical reaction without being consumed in the reaction itself. Platinum-asbestos catalysts are commonly used in reactions between hydrogen and oxygen, such as the hydrogen-oxygen reaction in fuel cells. Platinum is an excellent catalyst due to its good catalytic activity and chemical stability. Asbestos is often used as a support material, providing a stable structure for the catalyst and increasing the surface area. This helps enhance the contact between the catalyst and the reactants, thereby improving catalytic activity. In fuel cells, platinum-asbestos catalysts facilitate the reaction between hydrogen and oxygen to generate electricity, water, and heat. This type of catalyst has important applications in the energy field, especially in fuel cell technology.

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