Advanced Applications of NMR to Organometallic Chemistry. Physical Organometallic Chemistry

  • ID: 2176113
  • Book
  • 396 Pages
  • John Wiley and Sons Ltd
1 of 4
This new series offers leading contributions by well known chemists reviewing the state–of–the–art of this wide research area. Physical Organometallic Chemistry aims to develop new insights and to promote novel interest and investigations applicable to organometallic chemistry.

NMR spectroscopy has had a considerable impact on many fields of chemistry, although it has served organometallic chemistry mainly on a routine level. In a collection of reviews, leading chemists provide an insight into the scope of applications and uncover the potential of this technique for organometallic chemists. Advanced Applications of NMR to Organometallic Chemistry;

  • Illustrates how recent 1D and 2D and specialized multinuclear applications can solve specific problems encountered by organometallic chemists
  • Surveys modern NMR techniques in organometallic chemistry
  • Includes metal NMR related techniques
  • Focuses on the advent of solid state NMR in organometallic chemistry
This book will prove invaluable to the NMR spectroscopist and organometallic chemists and will also be of interest to all organic, inorganic and physical chemists Contents: Selective Excitation and Selective Detection in
29Si NMR; Two–dimensional
13C, Metal Nuclei Correlation; Two–dimensional
1H–
119Sn Proton Detected Correlation Spectroscopy in Coordination Chemistry of Hypervalent Organotin Compounds; Indirect Nuclear
119Sn–X Spin–Spin Coupling; Solid State NMR Applications in Organotin and Organolead Chemistry; Solid State NMR Investigations of Metal Carbonyl Complexes; High Pressure NMR in Organometallic Chemistry; Multinuclear NMR Spectroscopy in Supercritical Fluids; High Resolution
6,7Li NMR of Organolithium Compounds; Metal NMR of Organovanadium, –Niobium and –Tantalum Compounds; NMR of Metallic Nuclei in Clusters;
171Yb NMR Spectroscopy
READ MORE
Note: Product cover images may vary from those shown
2 of 4
Selective Excitation and Selective Detection in 2?9Si NMR (E. Kupce & B. Wrackmeyer).

Two–Dimensional 1?3C–Metal Nuclei Correlation (S. Berger, et al.).

Two–dimensional 1?H–1?19Sn Proton Detected Correlation Spectroscopy in Coordination Chemistry of Hypervalent Organotin Compounds (F. Kayser, et al.).

Indirect Nuclear 1?19Sn–X Spin–Spin Coupling (B. Wrackmeyer).

Solid State NMR Applications in Organotin and Organolead Chemistry (A. Sebald).

Solid State NMR Investigations of Metal Carbonyl Complexes (S. Aime, et al.).

High Pressure NMR in Organometallic Chemistry (U. Frey, et al.).

Multinuclear NMR Spectroscopy in Supercritical Fluids (M. Waugh & G. Lawless).

High Resolution 6?,7?Li NMR of Organolithium Compounds (H. Gunther).

Metal NMR of Organovanadium, –Niobium and –Tantalum Compounds (D. Rehder & D. Rodewald).

NMR of Metallic Nuclei in Clusters (P. Granger).

1?71Yb NMR Spectroscopy (J. Keates & G. Lawless).

Index.
Note: Product cover images may vary from those shown
3 of 4

Loading
LOADING...

4 of 4
Marcel Gielen
Rudolph Willem
Bernd Wrackmeyer
Note: Product cover images may vary from those shown
5 of 4
Note: Product cover images may vary from those shown
Adroll
adroll