Lithium Telluride (Li2Te, Purity: 99.9%, APS: 40-50µm)
|Lithium Telluride Powder
|<50µm (can be customized)
Lithium telluride powder, a compound composed of lithium and tellurium, possesses several unique properties that make it suitable for various applications in different fields. Here are some of the potential applications of lithium telluride powder:
Thermoelectric Applications: Li2Te has excellent thermoelectric properties, making it suitable for use in thermoelectric devices. These devices can convert heat directly into electricity, which can be useful for waste heat recovery in industrial processes and power generation.
Semiconductor Industry: Due to its semiconducting properties, lithium telluride can be utilized in the semiconductor industry for manufacturing electronic components and devices. It can be employed in the production of photodetectors, infrared sensors, and other electronic devices.
Optical Devices: The compound is also suitable for use in optical devices, including infrared optical components and systems. Its properties make it valuable for the construction of optical devices that operate in the infrared range.
Research and Development: Li2Te is often used in research and development for various scientific studies, especially in the fields of materials science, solid-state physics, and chemistry. Its unique properties make it an important material for exploring new applications and developing innovative technologies.
Energy Storage: Li2Te can potentially be utilized in advanced energy storage systems, including lithium-based batteries. Its properties can contribute to the development of high-performance batteries with enhanced energy storage capabilities and improved efficiency.
Aerospace and Defense: Due to its unique properties, lithium telluride might find applications in aerospace and defense technologies. Its use in infrared technology and sensing systems can be beneficial for applications such as surveillance, reconnaissance, and target detection.
Medical Applications: Li2Te may have potential applications in medical imaging and diagnostic equipment due to its properties in the infrared range. It could contribute to the development of advanced imaging systems for medical diagnostics and research purposes.