Materials Science

Graphene molecular lattice

Materials, such as polymers, alloys, and composites, play essential roles in a wide range of industries, including human health, energy storage and transportation, industrial devices, and so on. Materials science is a complex field of study, specifically the application of substances of different properties to various fields of science and engineering. To propel continued innovation, researchers can deepen the understanding of the physical and chemical properties of materials from the nanoscale to the macroscale. Electron microscopy (EM) is a powerful and versatile tool for studying the structure of materials at the atomic or molecular scale, involved in solving analytical problems, ensuring product quality, improving processes, and discovering new materials.

What Can We Help You?

Creative Biostructure has years of experience in imaging and analyzing a variety of materials based on our iEM Platform. Our platform consists of a suite of advanced microscopy technologies, including scanning electron microscopy (SEM), transmission electron microscopy (TEM), confocal laser scanning microscopy (CLSM), atomic force microscopy (AFM), and corresponding accessories and software. Whether you are working with conventional (such as ceramic, metal & alloy, glass, textile, wood) or relatively new materials (such as polymer, diatomite, and graphene), Creative Biostructure is a professional and reliable partner in your research and application.

Polymer Characterization

-The morphological observation, composition, and elemental distribution of polymers.

-The phase separation size and pattern shape of the polymer multiphase system.

-The fracture characteristics of the polymer cross-section.

-The crystal shape, structure, and crystal phase distribution of polymers.

Ceramic Characterization

-Grain sizes, coverage, and distribution of ceramics and related materials.

-Elemental analysis of the components of ceramics and related materials.

-Porosity, pore distribution of ceramics and related materials.

-Cracks and crack distribution of ceramics and related materials.

Metal & Alloy Characterization

-Alloy phase identification and distribution analysis.

-Microporosity measurement of metals/alloys.

-Non-metallic inclusion characterization in metals/alloys.

Glass Characterization

-Structural characterization and compositional analysis of glasses.

-Identification of coating on the glass.

-Glass defect analysis and chemical analysis of glass defects.

-Particulate and contaminant analysis on and within glasses.

Textile Characterization

-Surface analysis of textile materials.

-Cross-section characterization of textile fibers.

-Compositional analysis and material identification of textiles.

Wood Characterization

Asbestos Characterization

Diatomite Characterization

Graphene Characterization

Benefits of Our Solutions

  • With the highest level of instrument technology available in the industry.

  • Professional team of scientists and years of experience in a variety of materials characterization and analysis.

  • Customized and flexible solutions to fulfill clients' materials characterization needs.

  • Services are available 24 hours a day from Monday to Sunday.

  • The most competitive price and fast turnaround.

Discoveries from materials science research help improve the ability of researchers to successfully link structure to the function of materials. In turn, this insight helps commercial enterprises fundamentally optimize their offerings cost-effectively. EM is one of the most important tools used by scientists to study the structure of materials at the atomic or molecular scale. To characterize and analyze a wide range of materials, researchers choose Creative Biostructure. Our advanced microscopy platform and high experimental skills allow us the in-depth observation of customers' samples with unmatched accuracy and speed.

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