BBI - Inverse Probes

Double Resonance Broadband Probe (BBI) - An extensively used inverse tunable multinuclear probe, optimized for 1H applications.

The inner coil of these versatile probes is optimized for 1H observation while the outer coil is tuneable over a frequency range that permits decoupling of nuclei between 31P and 15N, depending on probe configuration. You can simply switch between decoupling nuclei using an automated tuning and matching device (ATM).

Bruker’s Tuneable Multinuclear Probes are the inverse equivalent of BBO probes and are often called Broadband Inverse Probes. These probes are used extensively for popular experiments like HSQC, HMQC, and HMBC. They are also used for proton 1D experiments with X-Nucleus decoupling and experiments requiring solvent suppression. With the widest tuning range in the industry, both 1D and multidimensional experiments can be performed with a variety of nuclei. The inner coil of Bruker’s BBI Probe is optimized for 1H observation while the outer coil can be tuned from 31P to 15N.

Technical Details

  • Inner coil optimized for 1H observation
  • Outer coil can be tuned from 31P to 15N
  • Standard BBI probes are available at frequencies between 300 and 600MHz.
  • Standard sample diameter: 5 mm
  • Switch between decoupling nuclei by using an automated tuning and matching device (ATM).
  • Z-Gradient

Service and Support


Service & Life Cycle Support for Magnetic Resonance and Preclinical Imaging

Bruker’s commitment to provide customers with unparalleled help throughout the buying cycle, from initial inquiry to evaluation, installation, and the lifetime of the instrument is now characterized by the LabScape service concept.

LabScape Maintenance Agreements, On-Site On-Demand and Enhance Your Lab are designed to offer a new approach to maintenance and service for the modern laboratory