1、 Semiconductor and Advanced Electronic Manufacturing

2nm chip manufacturing: The world's first molybdenum atomic layer deposition equipment achieves the laying of 1 nanometer level molybdenum wires, which is 8 times more efficient than traditional tungsten processes and drives down the cost of 3D NAND flash memory by 30%.

Heat dissipation substrate material: Molybdenum sheet, due to its low thermal expansion coefficient and high thermal conductivity, has become the core material for chip heat dissipation, ensuring the stability of aerospace electronic equipment under extreme temperatures.

Display panel technology: Molybdenum sputtering targets are used for OLED screen manufacturing, significantly improving color saturation and device lifespan.

2、 New Energy and Battery Technology

Optimization of power battery: Molybdenum based electrode material improves the cycle life of lithium batteries and is used as a safety connector in 800V high-voltage fast charging architecture. Its conductivity is 1.8 times that of nickel based materials.

Solar cells: Molybdenum is used as a key material in the new generation of photovoltaic modules, promoting the development of renewable energy technology.

3、 Aerospace and Extreme Environments

Manufacturing of high-temperature components: Molybdenum rhenium alloy is used in rocket engine nozzles to withstand ultra-high temperature and high pressure environments.

Satellite communication system: Molybdenum electromagnetic shielding components reduce 5G base station harmonic interference by 15dB and improve signal stability.

4、 New materials and scientific breakthroughs

Intelligent material development: Molybdenum ceramic gradient composite materials are used for optimizing the interface of artificial bones and enhancing their biocompatibility.

Extreme condition research: High purity molybdenum sheets support high-temperature experiments and two-dimensional material development, promoting innovation in nanotechnology and energy storage.

5、 High end equipment and industrial upgrading

Optimization of nuclear power equipment: Molybdenum containing special steel is used for structural components of nuclear reactors, with high temperature resistance and small neutron capture cross-section.

Chemical catalytic innovation: Molybdenum based catalysts improve petroleum refining efficiency, reduce sulfur and nitrogen emissions, and meet environmental requirements.

Summary: Molybdenum, with its unique physical and chemical properties, is rapidly penetrating from traditional industries to high-precision and cutting-edge fields, driving disruptive changes in industries such as semiconductors and new energy.