FT NMR Spectrometer LBN-FNS110 is designed with high sensitivity, achieving a signal-to-noise ratio of 10000:1 based on the CH₃ peak of 98% alcohol. It is essential for analyzing and understanding molecular architecture. Built-in radiofrequency excitation which enables resonance transitions by stimulating nuclei to shift between energy levels. Equipped with a non-destructive technique, it allows for precise material characterization without altering the sample. Our FT NMR Spectrometer is ideal for structural analysis and complex mixture studies in chemistry, biochemistry, and pharmaceuticals.
| Operating Frequency | 90 MHz |
| ¹H Sensitivity | ≥ 10 000: 1 CH3 Peak in Ethanol |
| Nucleus Support | ¹H, ¹³C, ¹⁹F, ³¹P Others Customizable |
| Magnet Type | High-Stability Rare-Earth Permanent Magnet |
| Acquisition Time ¹H | 10 s |
| Maintenance | Cryogen-Free, Maintenance-Free |
| Software | Method Customization, Intuitive UI |
| Applications | Structural Analysis, QC, Teaching, Functional-Group ID |
| Power Consumption | 50/60 Hz |
| Power Supply | 220 V |
Sheet Mold Press
Liquid Cell
Gas Cell
Brand Computer and 19-inch LCD Monitor
5mm Sample Tube 100 pieces
FT NMR Spectrometer LBN-FNS110 is equipped as a non-destructive technique, it allows for precise material characterization without altering the sample and is ideal for structural analysis and complex mixture studies in chemistry, biochemistry, and pharmaceuticals.
FT NMR Spectrometer LBN-FNS110 is equipped as a non-destructive technique, it allows for precise material characterization without altering the sample and is ideal for structural analysis and complex mixture studies in chemistry, biochemistry, and pharmaceuticals.
Most Frequently Asked Questions
1. What are FT NMR Spectrometers used for?
Ans. FT NMR Spectrometers are used for detailed analysis of molecular structure, dynamics, and interactions in organic and biochemical compounds.
2. How does an FT NMR Spectrometer work?
Ans. FT NMR Spectrometers place samples in a strong static magnetic field, aligning nuclear spins for signal excitation and detection.
3. What advantages does Fourier Transform technology provide in NMR analysis?
Ans. Fourier Transform technology enables simultaneous excitation of nuclei, allowing faster data collection compared to continuous-wave methods.
4. How do FT NMR Spectrometers support complex molecular analysis?
Ans. FT NMR Spectrometers detect fine chemical environment differences, making them suitable for complex organic molecule studies.
5. What type of samples can be analyzed using FT NMR Spectrometers?
Ans. FT NMR Spectrometers are suitable for analyzing organic compounds, biomolecules, and complex mixtures.
6. Where are FT NMR Spectrometers commonly used?
Ans. FT NMR Spectrometers are commonly used in chemistry, biochemistry, and pharmaceutical research laboratories.
