Chapter 10. Fast Gradient-Assisted 2-D Spectroscopy in Conjunction with Dynamic Nuclear Polarization

  1. Prof. Dr. Sarah L. Codd2 and
  2. Prof. Dr. Joseph D. Seymour3
  1. Rafal Panek,
  2. James Leggett,
  3. Nikolas S. Andersen,
  4. Josef Granwehr,
  5. Angel J. Perez Linde and
  6. Walter Köckenberger

Published Online: 25 FEB 2009

DOI: 10.1002/9783527626052.ch10

Magnetic Resonance Microscopy: Spatially Resolved NMR Techniques and Applications

Magnetic Resonance Microscopy: Spatially Resolved NMR Techniques and Applications

How to Cite

Panek, R., Leggett, J., Andersen, N. S., Granwehr, J., Perez Linde, A. J. and Köckenberger, W. (2008) Fast Gradient-Assisted 2-D Spectroscopy in Conjunction with Dynamic Nuclear Polarization, in Magnetic Resonance Microscopy: Spatially Resolved NMR Techniques and Applications (eds S. L. Codd and J. D. Seymour), Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim, Germany. doi: 10.1002/9783527626052.ch10

Editor Information

  1. 2

    Montana State University, Mechanical and Industrial Engineering, 220 Roberts Hall, Bozeman, MT 59717-3800, USA

  2. 3

    Montana State University, Chemical and Biological Engineering, 306 Cobleigh Hall, Bozeman, MT 59717-3920, USA

Author Information

  1. University of Nottingham, Sir Peter Mansfield Magnetic Resonance Center, School of Physics & Astronomy, University Park, Nottingham, NG7 2RD, UK

Publication History

  1. Published Online: 25 FEB 2009
  2. Published Print: 26 NOV 2008

ISBN Information

Print ISBN: 9783527320080

Online ISBN: 9783527626052

SEARCH

Keywords:

  • hyperpolarization;
  • dynamic nuclear polarization;
  • temperature jump DNP;
  • dissolution DNP;
  • ultra-fast spectroscopy;
  • low-temperature NMR;
  • fast-gradient-assisted spectroscopy

Summary

This chapter contains sections titled:

  • Introduction

  • The DNP Stand-Alone-Polarizer

  • Dissolution and Transfer

  • DNP Mechanisms

  • Principle of Fast Gradient-Assisted 2D Spectroscopy

  • Fast HSQC Spectroscopy with Hyperpolarized 13C Spin Systems

  • Signal Post-Processing

  • Conclusions

  • Acknowledgments