Electronics Industry

With the continuous development of the electronics industry, hydrides have become increasingly widely used in various fields such as batteries, materials, and packaging. It has not only been used for technological innovation, but also made significant contributions to the development of electronic technology.

Lithium aluminum hydride is widely used as a positive electrode material for lithium-ion batteries to improve energy storage density and performance. It can provide high specific capacity and long cycle life, resulting in longer battery life and higher energy density.

Lithium borohydride is used as an additive in some electronic magnetic materials, such as permanent magnet materials. It can enhance the magnetic field strength and magnetic properties of materials. It can also be used as an additive in electronic packaging materials to improve the thermal conductivity and mechanical strength of packaging materials and protect electronic components. Lithium borohydride is also commonly used in the preparation of semiconductor materials. It can be used to doping and alter the electrical properties of semiconductor materials, improving the performance of semiconductor devices.

Lithium deuteride can be used as a remover and cleaning agent in the production process of silicon wafers. In semiconductor manufacturing, lithium deuteride can be used to remove organic matter, oxides, and impurities from the surface of silicon wafers, improving the purity and quality of silicon wafers. It can also be used for the research and modification of semiconductor materials, changing the lattice structure, crystal growth process, and electronic properties of materials to achieve performance regulation and optimization.

Lithium deuteride can be used as an optical thin film coating material. In semiconductor manufacturing, lithium deuteride can be used to prepare thin films with specific optical properties, such as mirrors, filters, etc., for use in optical devices and sensors. Lithium deuteride plays an important role as an etchant in the electron beam etching process in semiconductor manufacturing. Electron beam etching is a commonly used microfabrication technique for preparing patterns and structures of semiconductor devices.

Lithium hydride is used as a stabilizer in ceramic processes, which can improve the properties of ceramic materials, such as increasing their hardness and thermal stability. It can also be used for optical coating, for preparing thin films with specific refractive index and transmittance, and is widely used in fields such as optical devices and optical sensors.

Trisec-butyl lithium borohydride can be used as one of the precursors in the growth process of semiconductor thin films. It can be used as a pre-treatment agent on the substrate surface in chemical vapor deposition (CVD) or physical vapor deposition (PVD) to remove oxides and impurities from the surface and promote the growth of high-quality films.

In semiconductor manufacturing, controlling and regulating the content of impurities is very important. Trisec-butyl lithium borohydride can be used as an impurity disposal agent to remove impurities such as oxygen, water vapor, and nitrogen, thereby improving the purity and performance of semiconductor materials.

Low nitrogen calcium hydride is also widely used in the electronic industry for the preparation of electronic ceramic materials. Electronic ceramics are a type of high-performance ceramic materials used in electronic information equipment, such as piezoelectric ceramics, ferroelectric ceramics, etc. Low nitrogen calcium hydride can be used as an important raw material for synthesizing these electronic ceramic materials. Low nitrogen calcium hydride can also be used for the preparation of electronic packaging materials. Electronic packaging materials are used to protect and fix electronic components, such as semiconductor chips, circuit boards, etc.

Low nitrogen calcium hydride can react with metal precursors to form metal films. Metal thin films are widely used in the semiconductor industry in the preparation of devices such as electrodes, leads, and connectors.

Low nitrogen calcium hydride can be used in the chemical mechanical polishing process of semiconductor device surfaces to remove impurities and smooth the surface. It can provide suitable alkaline conditions, improve polishing effects, and ensure the smoothness and smoothness of the material surface.