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Nuclear Magnetic Resonance (NMR) Spectrometer
Product Overview
The Nuclear Magnetic Resonance (NMR) Spectrometer is an advanced analytical instrument designed for the identification, structural elucidation, and quantitative analysis of chemical compounds based on their interaction with a strong magnetic field and radiofrequency radiation. It provides detailed molecular-level information, making it an essential tool for research, quality control, and advanced analytical applications.
The system operates on the principle of nuclear magnetic resonance, where atomic nuclei absorb and re-emit electromagnetic radiation in the presence of a magnetic field. This enables precise determination of molecular structure, chemical environment, and dynamic behavior of compounds with high accuracy and reproducibility.
Designed for versatility, the NMR spectrometer supports a wide range of experiments including one-dimensional (1D) and multi-dimensional (2D) NMR techniques. It is capable of analyzing various sample types such as liquids, solids, and semi-solids, making it suitable for diverse analytical requirements.
The instrument is widely used across industries including pharmaceuticals, chemicals, petrochemicals, food analysis, materials science, and academic research. It enables applications such as structural determination, purity assessment, reaction monitoring, metabolomics, and polymer analysis.
Equipped with advanced data acquisition and processing software, the system provides real-time spectral analysis, automated experiment control, and comprehensive data interpretation. Its modular and scalable design allows integration with various probes, magnets, and accessories to meet evolving analytical needs.
Overall, the Nuclear Magnetic Resonance Spectrometer offers a robust, highly sensitive, and versatile solution for molecular characterization, delivering high-resolution data and reliable performance across a wide range of laboratory environments.
Capabilities
Key Features
Technical Data
Specifications
| Parameter | Value |
|---|---|
| Instrument Type | Nuclear Magnetic Resonance (NMR) Spectrometer |
| Principle | Measurement of nuclear magnetic resonance signals in a magnetic field using radiofrequency excitation |
| *Magnet System* | >>> |
| Magnet Type | Permanent magnet / superconducting magnet or equivalent |
| Field Strength | Wide range (e.g., ~40 MHz to 800 MHz or higher, depending on configuration) |
| Field Stability | High stability suitable for high-resolution measurements |
| Field Homogeneity | Optimized for accurate spectral resolution |
| *RF System* | >>> |
| Frequency Range | Compatible with selected magnetic field strength |
| RF Channels | Single or multi-channel (expandable) |
| Pulse Programming | Advanced pulse sequence capability for customized experiments |
| Power Amplifier | High stability RF amplification system |
| *Probe System* | >>> |
| Probe Type | Liquid-state / solid-state / HR-MAS or equivalent |
| Multi-nuclei Capability | Support for ¹H, ¹³C, and other nuclei (depending on configuration) |
| Probe Compatibility | Interchangeable probes for different applications |
| Temperature Control | Variable temperature capability (optional/if applicable) |
| *Sample Handling* | >>> |
| Sample Types | Liquids, solids, semi-solids |
| Sample Tubes | Standard NMR tubes or equivalent |
| Automation | Optional auto-sampler/sample changer compatibility |
| *Data Acquisition & Processing* | >>> |
| Digital Resolution | High-resolution data acquisition system |
| Sampling Rate | High-speed digitization |
| Signal-to-Noise Ratio | Optimized for sensitive detection |
| Software Features: | --- |
| Real-time data acquisition | - |
| Fourier transform and spectral processing | - |
| Phase and baseline correction | - |
| Quantitative and qualitative analysis | - |
| Multi-dimensional data processing | - |
| Method development and storage | - |
| Automated report generation | - |
| *Experiment Capabilities* | >>> |
| 1D NMR Experiments | e.g., ¹H, ¹³C |
| 2D and Multi-dimensional NMR | e.g., COSY, HSQC, HMBC or equivalent |
| Quantitative NMR | qNMR |
| Diffusion and relaxation measurements | if applicable |
| Kinetic and reaction monitoring studies | - |
| *Performance & Reliability* | >>> |
| High spectral resolution and sensitivity | - |
| Excellent repeatability and reproducibility | - |
| Stable baseline with minimal noise | - |
| Suitable for continuous and advanced research applications | - |
| *Utilities & Requirements* | >>> |
| Power Supply | Standard laboratory power (e.g., 220–240 V, 50 Hz or equivalent) |
| Cooling Requirements | Cryogens (for superconducting systems) or equivalent cooling system |
| Environmental Conditions | Controlled laboratory environment |
| *Safety & Compliance* | >>> |
| Built-in safety features including magnet safety and system diagnostics | - |
| Compliance with relevant international standards | CE/ISO or equivalent |
| *System Configuration* | >>> |
| Complete system including: | - |
| Magnet system | - |
| RF console | - |
| Probe(s) | - |
| Control and processing software | - |
| Computer system | if required |
| Standard accessories and consumables | - |
Inquiry
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Nuclear Magnetic Resonance (NMR) Spectrometer?
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