Solid-state molybdenum NMR references

1. Hiroki Nagashima, Julien Trébosc, Yoshihiro Kon, Kazuhiko Sato, Olivier Lafon, and Jean-Paul Amoureux
   Observation of low-γ quadrupolar nuclei by surface-enhanced NMR spectroscopy,
   J. Am. Chem. Soc. 142, 10659-10672 (2020).
   Abstract
2. S. Kroeker, C. S. Higman, V. K. Michaelis, N. B. Svenda, and S. Schuller
   Precipitation of mixed-alkali molybdates during HLW vitrification,
   Mater. Res. Soc. Symp. Proc. 1265, AA03-03-09 (2010).
   Abstract
3. Scott Kroeker, Ian Farnan, Sophie Schuller, and Thierry Advocat
   95Mo NMR study of crystallization in model nuclear waste glasses,
   Mater. Res. Soc. Symp. Proc. 1124, 1124Q03-06 (2009).
   Abstract
4. M. A. M. Forgeron and R. E. Wasylishen
   Molybdenum magnetic shielding and quadrupolar tensors for a series of molybdate salts: a solid-state ⁹⁵Mo NMR study,
   Phys. Chem. Chem. Phys. 10, 574-581 (2008).
5. S. H. Santagneli, C. C. de-Araujo, W. Strojek, H. Eckert, G. Poirier, S. J. L. Ribeiro, and Y. Messaddeq
   Structural studies of NaPO₃-MoO₃ glasses by solid-state nuclear magnetic resonance and raman spectroscopy,
   J. Phys. Chem. B 111, 10109-10117 (2007).
6. A. Montesinos-Castellanos, E. Lima, J. A. de-los-Reyes, and L. Lara
   Fractal dimension of MoP-Al₂O₃ catalysts and their activity in hydrodesulfurization of dibenzothiophene,
   J. Phys. Chem. B 111, 13898-13904 (2007).
7. M. A. M. Forgeron and R. E. Wasylishen
   A solid-state ⁹⁵Mo NMR and computational investigation of dodecahedral and square antiprismatic octacyanomolybdate(IV) anions: Is the point-charge approximation an accurate probe of local symmetry?,
   J. Am. Chem. Soc. 128, 7817-7827 (2006).
8. S. Colis, D. Stoeffler, C. Meny, T. Fix, C. Leuvrey, G. Pourroy, A. Dinia, and P. Panissod
   Structural defects in Sr₂FeMoO₆ double perovskite: Experimental versus theoretical approach,
   J. Appl. Phys. 98, 33905/1-33905/11 (2005).
9. J.-B. d'Espinose de Lacaillerie, F. Barberon, K. V. Romanenko, O. B. Lapina, L. Le Pollès, R. Gautier, and Z. Gan
   ⁹⁵Mo magic angle spinning NMR at high field: Improved measurements and structural analysis of the quadrupole interaction in monomolybdates and isopolymolybdates,
   J. Phys. Chem. B 109, 14033-14042 (2005).
10. D. Zajac, Cz. Kapusta, P. C. Riedi, M. Sikora, C. J. Oates, D. Rybicki, J. M. De Teresa, D. Serrate, C. Marquina, and M. R. Ibarra
    NMR study of (Sr, Ba, La)₂Fe_1+yMo_1-yO₆ double perovskites,
    Acta Phys. Pol. A 106, 759-765 (2004).
11. D. L. Bryce and R. E. Wasylishen
    A ⁹⁵Mo and ¹³C solid-state NMR and relativistic DFT investigation of mesitylenetricarbonyl molybdenum(0) - a typical transition metal piano-stool complex,
    Phys. Chem. Chem. Phys. 4, 3591-3600 (2002).
12. T. J. Bastow
    ⁹⁵Mo NMR: hyperfine interactions in MoO₃, MoS₂, MoSe₂, Mo₃Se₄, MoSi₂ and Mo₂C,
    Solid State Nucl. Magn. Reson. 12, 191-199 (1998).
13. K. Eichele, R. E. Wasylishen, and J. H. Nelson
    Solid state ⁹⁵Mo NMR studies of some prototypal molybdenum compounds: sodium molybdate dihydrate, hexacarbonylmolybdenum, and pentacarbonyl phosphine molybdenum(0) complexes,
    J. Phys. Chem. A 101, 5463-5468 (1997).
14. O. H. Han, C. Y. Lin, and G. L. Haller
    Hydration effects of Al₂(MoO₄)₃ and AlPO₄ phases in hydrotraiting catalysts studied by solid state NMR spectroscopy,
    Catal. Lett. 14, 1-9 (1992).
15. J. C. Edwards and P. D. Ellis
    Solid-state ⁹⁵Mo NMR study of hydrodesulfurization catalysts. 2. Investigation of reduced/sulfided molybdena-alumina catalysts and the effect of promoter ions on "fresh" and reduced/sulfided molybdena-alumina catalysts,
    Langmuir 7, 2117-2134 (1991).

Related bibliography

1. Jérôme Cuny, Eric Furet, Régis Gautier, Laurent Le Pollès, Chris J. Pickard, and Jean-Baptiste d’Espinose de Lacaillerie
   Density functional theory calculations of ⁹⁵Mo NMR parameters in solid-state compounds,
   ChemPhysChem 1265, 3320-3329 (2009).
   Abstract
2. Raisa I. Maksimovskaya and Gennady M. Maksimov
   ⁹⁵Mo and ¹⁷O NMR studies of aqueous molybdate solutions,
   Inorg. Chem. 46, 3688-3695 (2007).
3. Michael J. Morris
   Molybdenum 1993,
   Coord. Chem. Rev. 146, 43-97 (1995).
4. Martin Minelli, John H.Enemark, Robert T. C. Brownlee, Maxwell J. O’connor, and Anthony G.Wedd
   The nuclear magnetic resonance properties of chromium, molybdenum and tungsten compounds,
   Coord. Chem. Rev. 68, 169-278 (1985).
   Abstract

More solid-state Mo-95/97 NMR references.

• Recent NMR reviews

Solid-state NMR bibliography for

• Aluminum-27 (鋁)
• Antimony-121/123 (銻)
• Arsenic-75 (砷)
• Barium-135/137 (鋇)
• Beryllium-9 (鈹)
• Bismuth-209 (鉍)
• Boron-10/11 (硼)
• Bromine-79/81 (溴)
• Calcium-43 (鈣)
• Cesium-133 (銫)
• Chlorine-35/37 (氯)
• Chromium-53 (鉻)
• Cobalt-59 (鈷)
• Copper-63/65 (銅)
• Deuterium-2 (氘)
• Gallium-69/71 (鎵)
• Germanium-73 (鍺)
• Gold-197 (金)
• Hafnium-177/179 (鉿)
• Indium-113-115 (銦)
• Iodine-127 (碘)
• Iridium-191/193 (銥)
• Krypton-83 (氪)
• Lanthanum-139 (鑭)
• Lithium-6/7 (鋰)
• Magnesium-25 (鎂)
• Manganese-55 (錳)
• Mercury-201 (銾)
• Molybdenum-95/97 (鉬)
• Neon-21 (氖)
• Nickel-61 (鎳)
• Niobium-93 (鈮)
• Nitrogen-14 (氮)
• Osmium-189 (鋨)
• Oxygen-17 (氧)
• Palladium-105 (鈀)
• Potassium-39/41 (鉀)
• Rhenium-185/187 (錸)
• Rubidium-85/87 (銣)
• Ruthenium-99/101 (釕)
• Scandium-45 (鈧)
• Sodium-23 (鈉)
• Strontium-87 (鍶)
• Sulfur-33 (硫)
• Tantalum-181 (鉭)
• Titanium-47/49 (鈦)
• Vanadium-51 (釩)
• Xenon-131 (氥)
• Zinc-67 (鋅)
• Zirconium-91 (鋯)