The nanoIR3 is the latest generation nanoscale IR spectroscopy, chemical imaging, and property mapping system for both materials and life science applications. The system also provides IR-based chemical imaging to provide mapping of chemical variations of the feature of interest. Unique point spectroscopy capabilities provide both spectroscopy and chemical imaging with a single source.
The nanoIR3 provides a comprehensive set of capabilities for nanoscale characterization. The unique POINTspectra feature provides both point spectroscopy and chemical imaging with a single laser source, enabling faster time to data and, ultimately, a more cost-effective research solution. Hyperspectral Imaging provides the ability to create a 3D spectral map of the surface within to help identify unknowns and export for additional processing.
Bruker’s proprietary Resonance-Enhanced AFM-IR mode provides the highest performance, rich, high-quality spectra to help identify materials at the nanoscale and better understand material changes and composition. From thin films to monolayers, Resonance-Enhanced AFM-IR is the most sensitive technique for nanoscale spectroscopy of organic materials.
Incorporating proprietary technology and building upon years of industry-leading Anasys AFM-IR instrument development, the nanoIR3 is the highest performance nanoscale IR. Our patented Tapping AFM-IR imaging technique creates chemical mapping of the highest spatial resolution, while providing high-quality IR spectroscopy. Whether your goal is creating chemical composition maps of polymers, thin films, monolayers, or small, thin contaminants, obtaining high-resolution chemical imaging is easy and fast with Tapping AFM-IR.spectroscopy, chemical imaging, and materials property mapping system available today for materials and life science applications.