iProbe BBI

The inner coil of these versatile probes is optimized for ¹H and ¹⁹F observation while the outer coil is tunable over a frequency range that permits observation and decoupling of nuclei between ³¹P and ¹⁰⁹Ag and switch between nuclei using an automated tuning and matching device (ATM).

Bruker’s tunable multinuclear probes represent the inverse counterpart to BBO probes and are commonly referred to as Broadband Inverse (BBI) probes. They are widely employed for key heteronuclear correlation experiments such as HSQC, HMQC, and HMBC. In addition, these probes are well suited for one-dimensional proton experiments with X‑nucleus decoupling as well as measurements requiring optimal solvent suppression. Owing to the broadest tuning range available on the market, they enable both one- and multidimensional experiments across an exceptionally wide selection of nuclei. The inner coil provides optimized ¹H sensitivity and can also be tuned to ¹⁹F, whereas the outer coil supports nuclei ranging from ³¹P to ¹⁰⁹Ag.

• Inner coil optimized for ¹H and ¹⁹F observation
• Outer coil can be tuned from ¹⁰⁹Ag to ³¹P
• iProbe BBI is available from 400 to 600MHz.
• Sample diameter: 5 mm
• Automated tuning and matching device (ATM) 
• Z-Gradient
• Standard sample temperature range -150°C – 150°C (5mm)