The Crucial Role of Molybdenum Sheets in the Electronic and Electrical Industry

Molybdenum plays a crucial role in the electronics and electrical industries, mainly due to its unique physical and chemical properties. Here are some key areas of application:

Semiconductor Manufacturing: In the manufacturing process of semiconductor devices, especially integrated circuits (ICs), molybdenum is used as gate materials and conductive lines. Its high electrical conductivity ensures that current can efficiently pass through tiny circuits, and its excellent mechanical strength and thermal stability guarantee reliability during the processing of semiconductor devices and in their final use. In addition, molybdenum can also be used as a diffusion barrier to prevent metal atoms from diffusing into the silicon substrate at high temperatures, which is crucial for maintaining the performance and extending the life of semiconductor devices.

Thin Film Deposition Technology: In thin film deposition technologies, such as sputtering in physical vapor deposition (PVD) techniques, molybdenum targets are used to deposit thin films on the surfaces of semiconductor devices. These films may be used to manufacture resistors, capacitors, conductive paths, and other key microelectronic structures.

High-temperature Applications: Due to its high melting point (approximately 2623°C), molybdenum remains stable under high-temperature environments, making it ideal for manufacturing electrical and electronic components that need to withstand high temperatures, such as vacuum tubes, heating filaments, and other high-temperature equipment.

Corrosion Resistance: Molybdenum has good corrosion resistance and can resist the erosion of various chemicals, making it very useful in the manufacturing of electrical and electronic equipment that needs to withstand corrosive environments.

In summary, molybdenum sheets have extensive applications in the electronics and electrical industries, and their unique physical and chemical properties make them key materials for manufacturing high-performance and highly reliable electrical and electronic components.