NMR Probes
Performance and Flexibility
Probes are the interface between a sample and the spectrometer. Their high performance and flexibility is an essential element in the overall quality of the NMR spectrometer.
Bruker BioSpin's experienced R & D group can deliver top-performance probes for almost any application. The following gives an indication of the types of probes we can generally offer. However if you have a specific requirement not covered here, we would be delighted to discuss special solutions with you.
This probe is optimized to observe two x-nuclei from 31P to 109Ag and allows 1H decoupling. It can also acquire 13C spectra with 1H decoupling, then switch to 31P observation with 1H decoupling.
The inner coil of these versatile multinuclear probes is fully optimized for 1H observation that permits decoupling of nuclei between 31P and, nominally, 109Ag, depending on probe configuration.
Our new 1.3 mm MAS system is capable of rotating at up to 70 kHz. Another first from Bruker, typical rotation periods are now actually shorter than cycle times leading to new and fascinating experiments in solid-state NMR.
Solids probes are ideal for a wide range of inorganic and biological samples, covering experiments like CP, double CP, MQMAS, REDOR, proton heteronuclear decoupling and combinations.
Evoked by many exciting applications, there is a need for analytical methods which require less amounts of sample. Bruker BioSpin meets this challenge with a revolutionary NMR probe design.
Modern magnetic resonance micro-imaging applications require the investigation of submillimeter samples at very high isotropic spatial resolution of 10 μm and less. A technological breakthrough for these applications is our new micro-imaging technology.
Imaging Probes feature exchangeable rf coils in various diameters for single or dual frequency 1H and X-nucleus applications.
Diffusion Probes feature exchangeable rf-coils in various diameters for single or dual frequency 1H and X-nucleus applications.