Bruker VERTEX NEO R Vacuum FT-IR Spectrometer
The Bruker VERTEX NEO R Vacuum FT-IR Spectrometer is a high-performance Analytical Instrument designed for advanced infrared spectroscopy research, ultra-sensitive molecular analysis, and complex material characterization. It combines a fully vacuum optical system, advanced FT-IR technology, and flexible detector configurations to deliver highly accurate measurements across mid-infrared and far-infrared applications.
The VERTEX NEO R is engineered for demanding research environments including materials science, semiconductor development, catalysis studies, life science research, and advanced chemical analysis where maximum stability, sensitivity, and spectral accuracy are required.
Description
Bruker VERTEX NEO R Vacuum FT-IR Spectrometer – Advanced Research Fourier Transform Infrared Analysis System
The Bruker VERTEX NEO R Vacuum FT-IR Spectrometer is a premium Analytical Instrument designed for researchers and laboratories requiring the highest level of infrared spectroscopy performance. With a fully vacuum optical system, advanced RockSolid™ interferometer, flexible detector technology, and powerful software integration, it provides exceptional stability, sensitivity, and measurement accuracy.
Designed for advanced scientific discovery, the VERTEX NEO R supports demanding applications in materials science, semiconductor research, catalysis, life science, pharmaceuticals, and solid-state physics. Its flexible architecture allows researchers to expand capabilities with additional detectors, accessories, and specialized measurement solutions.
The Bruker VERTEX NEO R Vacuum FT-IR Spectrometer is an ideal solution for universities, research institutions, and industrial laboratories seeking a powerful FT-IR platform for high-resolution molecular analysis and next-generation spectroscopy research.
Main Benefits
Ultra-Stable Vacuum FT-IR Performance
The vacuum optical design minimizes atmospheric interference from water vapor and carbon dioxide, improving spectral quality and sensitivity.
High-Precision Molecular Analysis
Provides detailed infrared spectra for identifying chemical structures, materials, and molecular interactions.
Advanced Research Flexibility
Supports multiple detectors, accessories, measurement modes, and future upgrades for specialized research applications.
Superior Signal Quality
Designed for high-resolution measurements with excellent signal-to-noise performance for demanding scientific applications.
Time-Resolved Spectroscopy Capability
Advanced electronics support rapid measurements for monitoring dynamic chemical and physical processes.
Key Features
Full Vacuum Optical System
The VERTEX NEO R uses a vacuum FT-IR optical path to provide maximum stability and reduce atmospheric absorption interference.
RockSolid™ Interferometer
Features Bruker’s permanently aligned RockSolid™ interferometer technology for reliable and stable FT-IR performance.
Advanced Vacuum ATR Technology
The unique vacuum ATR configuration improves measurement stability while allowing convenient sample handling.
MultiTect™ Detector System
Supports automated detector configurations with multiple detector options for different spectral ranges and applications.
DigiTect™ Detector Support
Provides flexible detector integration for specialized infrared research requirements.
Flexible Optical Bench Design
Includes multiple beam ports and accessory compatibility for customized experimental setups.
OPUS TOUCH Software
Provides intuitive instrument control, measurement management, and advanced spectral analysis workflows.
THz and Far-IR Extension Capability
Supports advanced low-frequency spectroscopy applications for materials and solid-state research.
Specifications
Product Type: Vacuum Research FT-IR Spectrometer
Category: Analytical Instrument
Subcategory: FT-IR Spectrometers
Technology: Fourier Transform Infrared Spectroscopy (FT-IR)
Optical System: Full vacuum optical bench
Interferometer: RockSolid™ permanently aligned interferometer
Spectral Region: Mid-IR, Far-IR, Near-IR options depending on configuration
Resolution: Better than approximately 0.16 cm⁻¹
Accuracy: Better than approximately 0.005 cm⁻¹
Detector System: MultiTect™ automated detector system
Detector Capacity: Multiple detector configurations including room-temperature and cooled detectors
Measurement Modes:
Transmission spectroscopy
Reflection spectroscopy
ATR spectroscopy
Time-resolved spectroscopy
Far-infrared spectroscopy
THz spectroscopy
Software: Bruker OPUS spectroscopy software
Sample Handling: Vacuum-compatible accessories and advanced sampling modules
Application Environment:
Research laboratories
Universities
Industrial R&D centers
Advanced material laboratories
Applications
Materials Science Research
Analyzes polymers, coatings, crystals, ceramics, composites, and advanced materials.
Semiconductor Analysis
Used for semiconductor materials, thin films, coatings, and electronic material characterization.
Catalysis Research
Supports real-time monitoring of catalytic reactions and molecular changes during chemical processes.
Pharmaceutical & Life Science Research
Enables detailed molecular analysis of biological samples, proteins, and pharmaceutical compounds.
Solid-State Physics
Used for studying electronic structures, crystals, and low-frequency material properties.
Chemical Research
Provides high-resolution identification of chemical compounds and reaction mechanisms.
Environmental & Energy Research
Supports analysis of battery materials, sustainable technologies, and advanced energy materials.
What is the Bruker VERTEX NEO R Vacuum FT-IR Spectrometer used for?
It is used for advanced infrared spectroscopy research, molecular analysis, material characterization, and scientific investigations requiring high sensitivity and precision.
Why does the VERTEX NEO R use a vacuum optical system?
A vacuum optical path reduces atmospheric absorption effects, improving measurement accuracy and spectral quality, especially in challenging infrared regions.
What samples can be analyzed with VERTEX NEO R?
It can analyze materials including polymers, crystals, semiconductors, chemicals, biological samples, and advanced research materials.
Does VERTEX NEO R support multiple detectors?
Yes. The MultiTect™ system allows flexible detector configurations for different analytical requirements.
Can the VERTEX NEO R perform time-resolved measurements?
Yes. Its advanced electronics enable rapid data acquisition for dynamic spectroscopy experiments.
What software is used with the VERTEX NEO R?
The system uses Bruker OPUS software for instrument control, spectral processing, and advanced analysis workflows.







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