Spinsolve 90
Introducing the Spinsolve 90 MHz
Outstanding features of Spinsolve 90 MHz
- 1H frequency: 90 MHz
- 1H and 19F on all systems + X nuclei for dual channel systems
- Resolution:
Spinsolve 90
- Linewidth at 50% <0.4 Hz
- Linewidth at 0.55% <15 Hz
- Linewidth at 0.11% <30 Hz
Spinsolve 90 Ultra:
- Linewidth at 50% <0.25 Hz
- Linewidth at 0.55% <12 Hz
- Linewidth at 0.11% <24 Hz
- Highest Sensitivity: >240:1 (Dual channel for 1% Ethyl Benzene1)
- 3D PFG gradients optimized for gradient-enhanced methods
- Optional PFG gradients for diffusion spectroscopy (>0.5 T/m)
- No cryogens
- External Hardware Lock with no need for deuterated solvents
- Unparalleled stability
- Suitable for on-line reaction monitoring
- Easy to operate
- Available with automatic sample changer
- Benchtop size and weight
- Dimensions: 66 x 45 x 43 cm (25,9” x 17,7” x 16,9”)
- Weight: 115 kg (253,5 lb)
Specifications
Nuclei: 1H, 19F, 13C (Other Nuclei Available)
- Operating frequency: >90 MHz (1H)
- Resolution Spinsolve 90 MHz :
- <0.4 Hz (50%) / <15 Hz (0.55%) / <30 Hz (0.11%)
- Resolution Spinsolve 90 MHz ULTRA :
- <0.25 Hz (50%) / <12 Hz (0.55%) / <24 Hz (0.55%)
- 1H Sensitivity (*)(dual channel): >240:1 for 1% Ethyl Benzene
- Operating Temperature Range: 18° C to 28° C (65° F to 82° F)
(*) Sensitivity measured in a single scan on a 1% ethylbenzene sample dissolved in deuterated chloroform. The signal used for the calculation is the one of the methylene group and the noise is calculated for a signal free region between the aromatic and the methylene signals.
- Sample: Standard 5 mm OD NMR sample tubes, 7″ length
- Minimum Sample Volume: 250 ml
- External Hardware Lock with no need for deuterated solvents
- 3D PFG gradients optimized for gradient-enhanced methods
- Optional PFG gradients for diffusion spectroscopy (>0.5 T/m)
- Dimensions: 66 x 45 x 43 cm (25,9” x 17,7” x 16,9”)
- Weight: 115 kg (253,5 lb)
- Stray Field: < 2 G all around system
- Voltage Requirement: 100-240 VAC, 50/60 Hz
- Available with automatic sample changer
- Suitable for on-line reaction monitoring