Materials Science Research

Nanomaterials

Scientists and engineers from biology, chemistry and physics gain deeper insights into the nanoscale cosmos, discover new possibilities, and create innovative products using Bruker solutions.

Analysis of Complex Systems on the Nanoscale

Understanding these and other complex systems on the nanoscale is crucial for the design process and for the never-ending endeavor of designing new products on ever smaller scales.  Nanomaterials are matter with one or more dimension sized below 100nm. The development of many technologies and industry sectors rely on nanotechnology. It builds the bridge across many research fields, such as biology, chemistry, physics, and engineering. Thus, various well-established analytical methods are applied in nanomaterials research. As part of everyday products, nanomaterials are widely used in various consumer and industrial applications, such as:  semiconductor devices, medicine, solar, cosmetic, construction materials, clothing, appliances, and food. 

Related Products

Electron Microscope Analyzers

Bruker provides high performance analytical solutions for mapping chemical element distribution down to traces or single atoms as well as crystallographic orientation down to the nanoscale. These techniques include EDS on SEM, EDS on TEM and STEM, on-axis TKD, EBSD. These complementary techniques are fully integrated in one software to allow researchers to combine quantitative data. Bruker’s unique OPTIMUS™ TKD detector head enables crystal orientation mapping and imaging with at least 2nm effective spatial resolution at high speed and data quality while using less than 2nA probe current. These characteristics make OPTIMUS™ TKD the highest performance solution in the market for quantitative and qualitative characterization of nanomaterials.

FT-IR Research Spectrometers

For investigating the functionality of nano-structured material, especially the so-called novel meta-material, in different wavelength ranges, the FT-IR serves as a powerful tool as it can easily measure the bulk optical response in reflectance and transmittance modes. This technique is well-established in the photonic industry.

Materials Research AFMs

Quantitative nanomechanical analysis in conjunction with high-fidelity topographic measurements is one of Bruker’s methods of unraveling the function of complex materials. From modulus measurements in the mega- to gigapascal range, adhesion and frictional maps, calorimetric and electrical data, correlated nanoscale AFM, and Raman spectroscopy to three-dimensional morphological plots with sub-nanometer accuracy, Bruker has the AFM solution for your problem.

PicoIndenters for SEM and TEM

As the world leader in nanomechanical testing systems, Bruker makes it easy for you to conduct in-situ mechanical experiments in your microscope with the Hysitron PI Series PicoIndenters. Our unique transducer design delivers unmatched stability throughout your experiments, resulting in precise data even at the nanoscale. Video capture from the microscope enables real-time monitoring and direct correlation of mechanical data to microscope imaging. With solutions designed to fit many of the microscope brands in use, you are sure to find one that is ideally suited to your research.
Scattering Systems

Small-Angle X-ray Scattering

Particle analysis and nanomaterial characterization from 0.1µm down to 1nm
Difração de raios X

Difração de raios X

Estrutura cristalográfica, propriedades do material e análise de fase de pós cristalinos e amorfos, materiais a granel e filmes finos.