600 MHz/51 mm Bruker Avance III

"Silver 600"

600 MHz/51 mm Bruker Avance III

MBI, AMRIS Facility, LG-123D

silver 600 with hypersense

"Silver 600" System Calendar

Upcoming Events

  1. Dec 04

  2. Dec 05

  3. Dec 06

  4. Dec 07

  5. Dec 08

  6. Dec 11

  7. Dec 12

  8. Dec 13

  9. Dec 14

  10. Dec 15

  11. Dec 16

  12. Dec 17

  13. Dec 18

  14. Dec 19

NMR experiments can be acquired using an Avance III spectrometer manufactured by Bruker Bio-Spin operating at a field strength of 14 tesla (600 MHz) with a 51 mm bore. Spectroscopy data are collected using TopSpin software (Version 3.5 pl7) while imaging data is collected with ParaVision 6.0.1.


  • Micro-5 gradients  300 mT/m
  •  5 mm  and 10 mm coils

High Resolution

  • 5 mm Broadband
  • 5 mm Triple-resonance TXI
  • 5 mm Triple-resonance TBI
  • 5 mm Fluorine/Proton probe
  • 4 mm HR-MAS probe


  • Diff 30 Gradient  (1500 mT/m)
  • 5 mm Proton and Carbon available


  • 3.2 mm Low-E® CP-MAS
  • 4 mm CP-MAS

Perfusion Experiments

  • 10 mm -Proton -Carbon /Sodium /Phosphorous Cryoprobe
  • 20 mm QOneTec Proton /Broadband

The Oxford 600​ is available for microimaging of samples up to 10 mm, PFG diffusion experiments, solid-state NMR, including HR-MAS experiments on tissue samples, and perfusion experiments.


A 3.35-tesla dynamic nuclear polarization (DNP) system operates in tandem with the Avance III spectrometer. This commercially built system can produce measured enhancements of >30000 at 14.1 tesla, and can be used with the 10 mm Cryoprobe or 20 mm probe for perfusion experiments.

Grant Acknowledgement

ALL PUBLICATIONS that include data obtained through MagLab (AMRIS) instrumentation, or involvement of MagLab-funded personnel at the AMRIS Facility, should acknowledge the corresponding NSF, NIH, and State of Florida grants that apply to instrumentation and usage time, in addition to the user’s project-specific funding sources.

Any users who publish data acquired on the Silver 600MHz – 51mm Avance III need to acknowledge the 2011 funding source that made this instrumentation possible. Publications, presentations, or other activities or products should include the following acknowledgements:

  • “This work was supported in part by an NIH award, S10 RR031637, for magnetic resonance instrumentation.”

Also, please tick the box for this grant (S10 RR031637) when you update your NIH-funding on publications through NCBI.