Titanium Selenide Powder

Titanium Selenide Powder

Applications of Titanium Selenide (TiSe₂) Powder

Electronics and Semiconductor Devices:

TiSe₂ powder is used in the development of semiconductor devices due to its high electronic conductivity and layered structure. It can be used in transistors, diodes, and field-effect transistors (FETs), where its electrical properties enable miniaturization and high-speed operation.

TiSe₂ also holds potential in the development of 2D electronics—where ultra-thin materials are used to create faster, more efficient electronic devices.

Superconductivity Research:

TiSe₂ undergoes a phase transition to a superconducting state at low temperatures, making it an interesting material for quantum computing and superconducting electronics. Its superconducting properties could be harnessed in quantum devices, superconducting magnets, and energy storage systems.

Researchers are exploring TiSe₂ for its potential in topological superconductivity, which could have applications in quantum information processing.

Energy Storage and Conversion:

Due to its layered structure and favorable electronic properties, TiSe₂ powder is being investigated for use in energy storage devices such as batteries and supercapacitors. It could serve as a cathode material in lithium-ion batteries or in other energy storage technologies that require high charge/discharge efficiency and high capacity.

TiSe₂ may also be used in solar cells and photodetectors, where its optical and electronic properties allow for efficient energy conversion.

Sensors and Sensing Devices:

The unique electronic properties of TiSe₂ make it suitable for sensor applications. It can be used in gas sensors, biosensors, and chemical sensors to detect various gases or biological signals, thanks to its sensitivity to changes in electrical conductivity when exposed to different substances.

TiSe₂-based sensors can be integrated into smart devices, wearable technology, and environmental monitoring systems.

Nanotechnology and 2D Materials:

TiSe₂’s layered structure and the ability to exfoliate into nanosheets make it an ideal candidate for nanoelectronics and 2D material research. It can be used as a building block for next-generation nanodevices, nano-optical devices, and nano-sensors.