At ULPMAT, our premium materials represent the cutting edge of our innovation and technological prowess. Carefully developed and selected to meet market needs, technological challenges and performance potential, these materials reflect our commitment to pushing the boundaries of materials science in areas such as vacuum coating, semiconductors, energy storage, optoelectronics and advanced ceramics.
Each product reflects our strengths in custom synthesis, high-purity processing and quality control, and is designed to meet the demands of high-performance, next-generation applications.
Our rotary targets are designed for demanding thin film applications and offer high uniformity, high target utilisation (70%+) and consistent performance. We offer a variety of metal, oxide, nitride and composite targets, and custom compositions are also available. The continuous and uniform sputtering provided by rotary targets is especially important for high-end applications that have stringent requirements for thin film properties, such as optical coatings and high-performance electronics.
We offer a range of doping materials for lithium-ion and solid-state batteries, including high-purity monomers, oxides, sulfides, lithium salts and lanthanides. These materials improve conductivity, stability and cycle life. Our control of particle size and charge/discharge capacity ensures optimal performance of anode and cathode materials, solid electrolytes and additives for advanced energy storage systems.
Chalcogenide materials, including sulfides, selenides and tellurides, are manufactured at ultra-high purity for use in infrared optics, photonics, and memory applications, such as phase-change random-access memory (PCRAM). We offer pellets, powders and sputtering targets with customised compositions for specific phase change or optical transmission needs.
We offer a wide range of TCO materials, including ITO, AZO, GZO, IZO, and custom mixed oxides in pellets, powders, and sputtering targets. These materials offer excellent transparency and conductivity for applications such as touch screens, displays, solar cells, and low-e glass. Our targets offer high density, good uniformity and stable film properties.
MXene is an emerging two-dimensional transition metal carbide and nitride created through the etching of hydrogen fluoride into the MAX phase, a unique class of layered ternary compounds that have attracted attention in industrial applications due to their combination of the high hardness, heat and corrosion resistance of ceramics, and the electrical conductivity, thermal conductivity and radiation resistance of metals. We offer Ti₃AlC₂ and other MAX phase material powders for research and advanced applications in aerospace, nuclear and energy materials.
Whether you’re scaling up a new process or fine-tuning a high-specification device, ULPMAT’s premium materials can help. Contact us to find out how our advanced materials can help you achieve your next breakthrough.
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