Spin Echo DOuble Resonance references

Some NMR references about SEDOR pulse sequences involving half-integer quadrupole spins, (*) those containing the pulse-sequence diagram.

1. T. Gullion
   Dipolar recoupling of I = 1/2, S = 3/2 spin pairs with SEDOR for static and spinning samples, (*)
   Magn. Reson. Chem. 45, S65-S67 (2008).
2. S. P. Puls and H. Eckert
   Spatial distribution of lithium ions in glasses studied by ⁷Li{⁶Li} spin echo double resonance, (*)
   Phys. Chem. Chem. Phys. 9, 3992-3998 (2007).
3. F. Haarmann, M. Armbruster, and Y. Grin
   Local ordering in the intermetallic compound Cu_1-xAl₂ studied by NMR spectroscopy,
   Chem. Mater. 19, 1147-1153 (2007).
4. X. J. Li, W. P. Zhang, S. L. Liu, X. W. Han, L. Y. Xu, and X. H. Bao
   A high-resolution MAS NMR study on the potential catalysts Mo/HBeta for olefin metathesis: The interaction of Mo species with HBeta zeolite,
   J. Mol. Catal. A 250, 94-99 (2006).
5. Sanlin Hu, J. A. Reimer, and A. T. Bell
   ⁶⁵Cu NMR spectroscopy of Cu-exchanged ZSM-5 catalysts, (*)
   J. Phys. Chem. B 101, 1869-1871 (1997).
6. Larry W. Beck and James F. Haw
   Multinuclear NMR studies reveal a complex acid function for zeolite Beta,
   J. Phys. Chem. 99, 1076-1079 (1995).
7. N. P. Kenaston, A. T. Bell, and J. A. Reimer
   Determination of the Al-H and H-H internuclear distances in ZSM-5 using NMR spectroscopy,
   J. Phys. Chem. 98, 894-896 (1994).
8. A. L. Blumenfeld, D. J. Coster, and J. J. Fripiat
   ¹H-²⁷Al heteronuclear dipolar couplings and internuclear distances in alumina: SEDOR and REDOR ²⁷Al study,
   Chem. Phys. Lett. 231, 491-498 (1994).
9. E. R. H. van Eck and W. S. Veeman
   The determination of the average ²⁷Al-³¹P distance in aluminophosphate molecular sieves with SEDOR NMR, (*)
   Solid State Nucl. Magn. Reson. 1, 1-4 (1992).
10. J-Ph. Ansermet, C. P. Slichter, and J. H. Sinfelt
    Solid State NMR techniques for the study of surface phenomena, (*)
    Prog. NMR Spectrosc. 22, 401-421 (1990).

Related bibliography

1. Y. Ba, C. I. Ratcliffe, and J. A. Ripmeester
   Quadrupolar echo double resonance (QEDOR) and solid echo double resonance (SOLEDOR) NMR, (*)
   Chem. Phys. Lett. 299, 201-206 (1999).
2. Terry Gullion
   Introduction to rotational-echo, double-resonance NMR, (*)
   Concepts Magn. Reson. 10, 277-289 (1998).
3. K. Sakaie, C. P. Slichter, and J. H. Sinfelt
   Methods using the nuclear quadrupole interaction to determine the structure of randomly oriented molecules, (*)
   J. Magn. Reson. A 119, 235-239 (1996).
4. K. T. Mueller
   Analytic solutions for the time evolution of dipolar-dephasing NMR signals, (*)
   J. Magn. Reson. A 113, 81-93 (1995).
5. M. Emshwiller, E. L. Hahn, and D. Kaplan
   Pulsed nuclear resonance spectroscopy, (*)
   Phys. Rev. 118, 414-424 (1960).
6. D. E. Kaplan and E. L. Hahn
   Expériences de double irradiation en résonance magnétique par la méthode d'impulsions, (*)
   J. Phys. Radium 19, 821-825 (1958).
7. B. Herzog and E. L. Hahn
   Transient nuclear induction and double nuclear resonance in solids,
   Phys. Rev. 103, 148-166 (1956).