Bruker is one of the world's leading analytical instrumentation companies. Bruker systems cover a broad spectrum of applications in all fields of research and development and are used in all industrial production processes for the purpose of ensuring quality and process reliability.
The company has developed a unique process for the deterministic production of carbon nanotube (CNT) devices. This process allows Carbon Design Innovations to predictably produce CNTs with specified geometries and properties such as angle and length that offer many benefits for atomic force microscopes.
Confovis confocal measurement systems provide fast and non-contact analysis of roughness, microgeometry, topology and more down to the nanometre range for quality control and process optimization in industry and research.
The company manufactures state-of-the-art instruments using optical and electrooptical technology for scientific and industrial applications. Key target areas are: fluorescence microscopy and spectroscopy.
CRAIC Technologies™ is a developer of UV-visible-NIR range scientific instruments for microanalysis. These include the QDI series UV-visible-NIR microspectrophotometer instruments designed to non-destructively measure the optical properties of microscopic samples. CRAIC's UVM series microscopes cover the UV, visible and NIR range and hel analyze with sub-micron resolutions far beyond the visible range.
CSInstruments is a French scientific equipment manufacturer specialized in the conception of Atomic Force Microscope and options designed for existing AFM. Its activities are focused on research, development and design of simple solution, innovative and quality around the AFM to allow researchers and industry to improve their research project.
CytoViva offers a Dual Mode Fluorescence (DMF) module and high resolution adapter as a comprehensive package for optically imaging emulsions, nano-particles and nano-composites by themselves, or combined with living specimens.
D3 Technologies Ltd is a pioneer in the field of molecular detection systems. The company uses the highly selective and sensitive techniques of surface enhanced Raman scattering (SERS) and surface enhanced resonance Raman scattering (SERRS) to produce products with superior detection capability.
Del Mar offers integration of femtosecond laser systems for research of ultrafast dynamics in nanophotonics, as well as multiphoton imaging, scanning probe microscopy, micromachining, ultrafast fluorescent kinetic and transient pump-probe absorption spectroscopy systems.