Experimental Section & Acknowledgements

Acknowledgement of NSF Support - Instrument Purchase

"Purchase of the NEO-400 NMR spectrometer used to obtain results included in this publication was supported by the National Science Foundation under the award CHE MRI 1726173."

"Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation."

Acknowledgement of CIF Staff Assistance

"We wish to thank ISU Chemical Instrumentation Facility staff members <insert name(s) here> for training and assistance pertaining to the NEO-400 results included in this publication."

Experimental Section & Publication Information

The NEO-400 NMR spectrometer features a narrow bore 9.4 tesla superconducting magnet and an Avance NEO spectrometer console from Bruker Corporation (Billerica, MA and Karlsruhe, Germany). The spectrometer uses a BCU-I for low temperature experiments. The amount of additional experimental detail necessary will depend upon whether you are preparing a manuscript, a poster, a presentation, or including the information in your thesis.

The NEO-400 is operated using Topspin 4.0. Every data file acquired with Topspin has associated files with many of the relevant parameters from the acquisition. This data file can be accessed by opening the associated files in a text editor, or through Topspin by loading the file and typing the command dpa<enter>. The dpa file typically does not contain information about the temperature or sample rotation speed at which the data was acquired.

For measurements on the AVIII-600, this data file may include:

  • Pulse sequence
  • Number of scans (ns)
  • Acquisition time (aq)
  • Pulse lengths in microseconds (typically conveted to kHz for publication - i.e. 5 us = 50 kHz pulse)

The spectrometer frequencies for many typical nuclei are as follows:

  • 1H = 400.17 MHz
  • 19F = 376.53 MHz
  • 31P = 128.39 MHz
  • 11B = 192.63 MHz
  • 13C = 100.62 MHz
  • 29Si = 79.50 MHz
  • 2H  = 61.43 MHz
  • 15N = 40.55 MHz

There is one probe available for the NEO-400:

  • 2H/1H(19F)/BB Prodigy Probe capable of tuning to nuclei of 15N-31P on the broadband channel.