Benchtop NMR | System | Solutions

Highlights

Cryogen-free

The Fourier 80 can be installed in the fume hood or on the bench without the need for new infrastructure, providing easy maintenance and minimal cost of ownership.

80 MHz

The Fourier has been designed for the highest data quality and stability at 80 MHz, with excellent lineshape, resolution and sensitivity.

Flexibility

Adjustable temperature for the Fourier 80 allows samples to be measured from 25°C up to 60°C

Precision

Fourier 80 HD: Designed for performing complex molecular structure analysis mimicking high field NMR resolution

The Fourier 80 is an 80 MHz high-performance nuclear magnetic resonance (NMR) benchtop spectrometer designed for the routine laboratory in either research facilities or university settings.

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Features

See the Fourier 80 in action!

See how the Fourier 80 can be used in labs with high-field systems to maximize productivity.

Adjustable Temperature for Fourier 80

Fourier 80 Benefits

Compact footprint, designed for the routine laboratory use
Easy maintenance and minimal cost of ownership
Perform complex molecular analysis
Provides higher sample throughput
Optimized synthesis and process control directly on the bench
Automated data interpretation
Use Bruker high-field system workflows on the benchtop
Suitable for comprehensive range of applications
Reduces errors and maximizes efficiency

Technical Features

80-MHz high performance, cryogen-free permanent magnet
Superior spectral quality for precise results
Automation for up to 120 samples
Adjustable temperature (25-60°C)
On-line reaction monitoring with patented temperature-controlled transfer lines and controlled reaction path
Pulsed field gradient
Full flexibility with use of TopSpin software
GoScan software provides pre-defined, dedicated workflows
Push-button operation

Applications

Structure verification
Process optimization & control
Academic/Basic Research and advance discovery
Forensics and narcotics profiling
Authenticity and quality analysis of olive oil
Quantification of ethanol content in hand-sanitizers
For hands-on training in colleges and universities

Applications

Thermodynamic and Kinetic Characterization of a Hydrolysis Reaction Using the Adjustable Temperature Feature of the Fourier 80

Benchtop Nuclear Magnetic Resonance (NMR) spectrometers are versatile tools for structure elucidation and verification, reaction monitoring, and quality control. In contrast to their larger, floor standing counterparts they are an order of magnitude less expensive in acquisition, have negligible operating costs, and require only minimal laboratory infrastructure.

APPLICATION NOTE

All Fourier 80 related Application Notes:

Application Notes

Specifications

Operating Frequency:	80 MHz (¹H) (Corresponds to 1.88 Tesla)
Nuclei selection:	The high performer: ¹H-only system with ¹H sensitivity of ≥ 240:1 or ≥ 220:1 when pulsed field gradient (PFG) incl. (1% ethyl benzene)
	The workhorse: ¹H/¹³C system with ¹H sensitivity of ≥ 180:1 or ≥ 160:1 when PFG incl. (1% ethyl benzene)
	The multi-talent: ¹H/¹³C\|¹⁹F system with sensitivity optimized for the X-channel, PFG incl.; sensitivity: ¹H: ≥ 110:1 (1% ethyl benzene) ¹³C: ≥ 35:1 (100% ethyl benzene) ¹⁹F: ≥ 110:1 (0.5% TFT in CDCl₃)
	The specialist: ¹H/X system with one dedicated X nucleus (⁷Li, ¹¹B, ¹³C, ²³Na, ²⁹Si, ³¹P, ¹¹⁹Sn, or ¹²⁹Xe), and sensitivity optimized for the X-channel, PFG incl; sensitivity: ¹H: ≥ 90:1 (1% ethyl benzene) X options (contact us for more): ⁷Li: ≥ 2000:1 (1 M LiBr in D₂O) ¹¹B: ≥ 45:1 (0.75 M boric acid in D₂O) ¹³C: ≥ 65:1 (100% EB) ²³Na: ≥ 65:1 (0.5 M NaCl in D₂O) ²⁹Si: ≥ 45:1 (100% HMDSO) ³¹P: ≥ 130:1 (0.485M TPP in Acetone-d6)
Gradient strength:	≥ 0.25 T/m (25 G/cm)
Adjustable temperature	25°C - 60°C*
Automation:	PAL RSI sample changer; up to 120 samples + 12 reference samples
¹H Resolution (@ 50/0.55/ 0.11% signal height) :	Standard: ≤ 0.4/ 15/ 30 Hz HD-Option: ≤ 0.3/ 10/ 15 Hz
Digital Lock:	External, no deuterated solvents needed
Sample Tubes:	standard 5mm diameter, 7’’-long NMR tubes: compatible with Young tubes
Dimensions:	~50 cm x 70 cm x 60 cm (Height x Width x Depth)
Weight:	~94 kg
Lab Temperature:	18-28°C; Measurements at sample temperature > 40°C: 18-25°C
Lab Infrastructure needed:	no liquid nitrogen or helium required no water cooling required power consumption typically <300 W power: 100 – 240 V, 50 – 60 Hz no additional venting required AT needs compressed air or nitrogen at 5 bar max.
	*Incoming supply gas temperature must be min.5°C lower than the target temperature

Accessories

Fourier 80 with Adjustable Temperature (AT)

The enhanced Fourier 80 features an Adjustable Temperature (AT) option, expanding its range of applications by enabling sample analysis from 25°C up to 60°C, all compatible with the optional Fourier 80 PAL sample changer.

Fourier 80 with PAL RSI

Tackle the challenges. Remove the barriers.

For basic research, the Fourier offers unprecedented flexibility. It can be operated with the same TopSpin™ software that runs Bruker’s high-field NMR instruments, so scientists have the freedom to adjust their workflows and techniques from the benchtop to the dedicated NMR lab, and back.

Fourier CrimeLab

Get unequivocal forensic evidence about unknown substances

Fourier ChemLab

Convenient, straightforward access to NMR structure verification

Fourier EduLab

Give students hands-on experience with the power of NMR

RxnLab

The Fourier 80 also features the advanced reaction monitoring capabilities of Fourier RxnLab™, which offers InsightMR™ patented insulated reaction paths and control software to minimize temperature loss, optimize process control, and monitor reaction outcomes. Leggi di più

Flow unit (InsightMR)