High Purity Metals
High purity metals are metals that have been refined to remove impurities, resulting in a higher percentage of the desired metal element, typically above 99.9%. Our expertise in metal purification allows for production of the purest alkali earth and rare earth metals, consisting of over 300 high-purity metals with 99.999% (5N) purity or higher.
High-purity metals are used in electronics, photovoltaics, quantum devices, and energy applications. These metals are available in various forms including powders, foils, wires, and sputtering targets and are designed to meet the stringent purity requirements of both academic and industrial applications.
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High Purity Metals in Electronics and Semiconductors
Selenium Powder
Selenium Powder offers a high surface area, fine particle size, and excellent photoconductive properties, making it ideal for applications in solar energy, electronics, and chemical manufacturing. Industries such as photovoltaics, electronics, and pigments use selenium powder to fabricate thin-film solar cells, produce semiconductor devices, and add controlled coloration to specialty glasses.
Selenium Foil
Selenium Foil combines selenium’s photoconductive and chemical stability with a light-blocking microstructure for complete optical isolation. It is used in detectors, sensors, and optical equipment, as well as in aerospace and medical imaging applications, including high-contrast imaging systems, spectrometers requiring dark environments, and optical test chambers.
Silver Rod
Silver Rod is a high-purity material known for its excellent electrical conductivity and thermal properties. It is used in the fabrication of electrodes, electrical contacts, and conductive materials in experiments requiring efficient energy transfer and low resistance.
Tellurium Powder
Tellurium powder offers high thermal and electrical conductivity. It is commonly used as an additive in stainless steel and copper to improve machinability, and in photovoltaic solar panels to convert sunlight into electricity.
Zinc Powder
Zinc powder is used in the production of semiconductors, where it serves as a dopant material in the manufacture of zinc oxide films.
Copper Foil
Copper Foil is used in printed circuit boards (PCBs), electromagnetic shielding, and as a substrate in chemical vapor deposition.
High Purity Metals in Batteries
Lithium Foil
Lithium foil is used in lithium batteries and alloying. It’s also a light tight material that can be used to protect from oxidation. Lithium foil is also used in energy storage, aerospace alloys and pharmaceuticals.
Graphite
Graphite Rods are used in high-temperature, inert, or vacuum environments for electrochemical applications like fuel cells, batteries, and electrolysis. heir excellent electrical conductivity and thermal resistance make them ideal as electrodes, heating elements in furnaces, and components in thermal analysis equipment.
High Purity Metals in Optoelectronics
Gallium
Gallium exists as a metallic liquid or solid, a unique property that allows it to be used in various applications, particularly in electronics and optoelectronics. Its high purity (99.999% on a trace metals basis) is utilized in the production of semiconductors, LED technology, and solar panels.
High Purity Metals in Dosimeter
Indium Foil
Indium foil is widely used in nuclear facilities to capture thermal neutrons due to its high cross section for neutron capture reactions. It is also used in dosemeters to measure exposure.
High Purity Metals in Synthesis
Calcium metal granules are widely used as a reducing agent in the manufacturing of various metals, including uranium and thorium. They are also an essential component in the production of aluminum alloys that are commonly used in the aerospace and automotive industries.
Palladium
Palladium powder is used in the preparation of diverse heterogeneous palladium catalysts for various organic transformations. Palladium powder is also used in electrical equipment, dental materials, implanted medical devices, and automobile catalysts.
Related Resources
- Article: Self-Propagating Reactions Induced by Mechanical Alloying
Mechanical alloying is a “brute force” method of affecting alloying and chemical reactions. The mixture of reactant powders and several balls are placed in the milling jar of a high-energy ball mill, for example, a shaker mill or a planetary mill.
- Article: Titania Nanotubes: Synthesis & Apps
TiO2 exhibits wide band gap semiconductor and memristor properties electronically, with high opacity and UV absorbance optically.
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