SuperSEM can perform static microstructural observation and elemental analysis on carbon materials, nanomaterials, ceramic materials, magnetic materials, powders, as well as functional materials like thermoelectric and piezoelectric materials.It also has the capability to perform dynamic microstructure observation.
In life sciences, SEM serves as an indispensable tool for microscopic exploration. It is used to observe the surface microstructure of cells, tissues, and biomaterials, providing intuitive microstructural information for life science research.
The properties of metals and alloys are determined by chemical composition, crystal structure, and microstructure. LANScientific SuperSEM can be used for analyzing metal fractures, alloy phase composition, powder metallurgy, and inclusions. It can observe the surface and internal microstructure of metallic materials and, combined with qualitative and quantitative elemental analysis, achieve precise correlation between morphology and composition.
Polymer materials are rapidly evolving towards high performance, multifunctionality, sustainability, and intelligence. SEM, with its exceptional capabilities, is a key tool for studying the surface and internal morphology, structure, and composition of polymers. It plays a vital guiding role in analyzing properties such as strength, wear resistance, chemical stability, corrosion resistance, degradability, and biocompatibility.
