In the past decade, Due to the introduction of a series of new materials, new structures and new processes, traditional thin film solar cell technology has developed rapidly. Among them, the industrialization and large-scale application of thin film solar cells such as CdTe, CIGS, and PSC have also made great progress.
Controlling the thickness and composition of solar thin films is a challenging task, requiring repeated production of layers to meet varying commercial demands. Since the electrical characteristics of the battery depend on the exact composition of the different film layers, the structure and nature of the various chemical substances formed on the interface are different, and the performance will be affected to a certain extent. LANScientific provides measurement instruments for material testing of innovative coatings for solar modules.
The fuel cell contains many metal parts, such as pipe joints, stack end plates, power supply plates, etc., most of which are made of aluminum, stainless steel or copper.
In order to ensure the corrosion resistance, safety, insulation and other functions of fuel cells, surface treatment technology is widely used in fuel cell manufacturing, such as fuel cell supports and connector surface processes, fuel cell bipolar plate surface treatment processes,covering parts (fuel cell engine or stack pack casing) surface treatment process, etc. LANScintific XRF technology can provide suitable solutions for quality inspection applications in the fuel cell industry.
Silver plating technology is widely used in the matrix of power systems such as power transmission lines, power connectors, power switches, power capacitors and transformers to ensure the conductivity, reliability and safety of power transmission and extend the service life of equipment. Therefore, the thickness of the silver plating layer is a basic requirement to ensure that power equipment meets standards, and directly affects the operating life of the power system.