Hyperspectral Imaging: Captures a full infrared spectrum at every pixel, allowing for multidimensional chemical analysis. This feature enables detailed studies of material composition and heterogeneity.
Sub-5 nm Spatial Resolution: The high-performance NanoIR spectroscopy delivers monolayer sensitivity, making it ideal for the analysis of delicate samples such as polymers, thin films, and biological structures.
Correlative PeakForce Tapping® Technology: This exclusive Bruker mode allows simultaneous nanomechanical and nanoelectrical property mapping, providing a comprehensive characterization of materials in a single experiment.
Photothermal AFM-IR: This patented mode from Bruker offers quantitative nanochemical insights with depth sensitivity, making it suitable for high-speed single-molecule spectroscopy and correlated FT-IR analysis.
Surface-Sensitive AFM-IR Mode: Probe the chemical properties of surfaces with reduced depth, targeting just tens of nanometers. This mode is particularly useful for analyzing polymeric films and coatings.
AFM-IR measurements
Productive Workflow: Guided workflows and a programmable stage enhance measurement throughput, providing an intrinsically easy-to-use AFM-IR experience.
Multimodal Chemical and Property Mapping: Offers quantitative nanochemical, nanomechanical, and nanoelectrical data, enabling comprehensive analysis of materials.
Sub-5nm Imaging: Utilizes patented photothermal AFM-IR imaging techniques to achieve the highest resolution and best signal-to-noise characterization with monolayer sensitivity.
High-Performance NanoIR Spectroscopy: Accurate and repeatable FTIR correlation with <5 nm chemical resolution and monolayer sensitivity.
Correlative Chemical Imaging: Employing PeakForce Tapping® nanomechanical and nanoelectrical modes for enhanced analysis.
Unmatched Sample Flexibility: Supports standard samples up to 150 mm, with options for larger samples.
NanoIR Spectroscopy
Resonance-Enhanced AFM-IR Monolayer Sensitivity: Achieves rich, detailed spectra that correlate to FTIR spectroscopy, supporting a wide range of samples.
High-Quality Data: Delivers consistent, reliable, and high-quality publishable data with <5 nm chemical spatial resolution, suitable for soft samples and biological structures.
Facility Contact
Dr. Gajendra S Shekhawat SPID Facility Manager Office: Tech, #AG94 847-491-3204 / email
