Complete Characterization, Measurement and methods for materials science.
Structural and chemical characterization of materials is of paramount importance in your research and development. Your material samples, whether conventional, like steel, or advanced, like carbon nanotubes, possess unique structures and property relationships that your research lab is responsible for exploring and defining. Analytical techniques provide powerful means to characterize materials and ensure their physical-chemical properties. Thermo Scientific solutions provide the most comprehensive suite of techniques, including imaging, spectroscopy, material characterization, and data management, which enable both research and industrial laboratories to gain insight from your analysis, have confidence in your decisions, and develop the materials of tomorrow. Materials Science the way you dream it should be.
The most comprehensive range of analytical instrumentation for art restoration research and teaching.
Analytical tools from sample preparation and analysis to data management and reporting that meet the high specifications and maintain costs in chemical research and production.
Materials characterization tools essential for the engineer developing biomaterials and processes.
Enabling scientists and engineers to control the interaction between chemistry, structure and properties of materials vital to advanced energy production.
Offering a full suite of the essential analytical tools for measurement tools for analyzing the family of carbon materials, from morphology to functionalization to performance.
Chemical and structural characterization of materials used in medical implants such as metals, ceramics, bio-polymers and other organic bases is essential to guarantee their desired properties as well as their acceptance by the human body.
Solutions for the quality and process control of raw materials, raw meal, clinker, cement, additives, and in monitoring emission levels.
Analyzing the chemistry and structure of metals and alloys from bulk to micro scales.
Enabling scientists and engineers to control the interaction between the chemistry and morphology of glass and ceramic materials.
Aiding materials researchers and engineers involved in microelectronics in developing new solutions, improving processes, and reducing materials and production costs.