Solid-state scandium NMR references

1. Nasima Kanwal, Henri Colaux, Daniel M. Dawson, Yusuke Nishiyama, and Sharon E. Ashbrook
   Sensitivity improvement in 5QMAS NMR experiments using FAM-N pulses,
   Solid State Nucl. Magn. Reson. 100, 1-10 (2019).
2. Henri Colaux, Daniel M. Dawson, and Sharon E. Ashbrook
   Investigating FAM-N pulses for signal enhancement in MQMAS NMR of quadrupolar nuclei,
   Solid State Nucl. Magn. Reson. 84, 89-102 (2017).
   Open access
3. Marcos de Oliveira, Jr., Tássia S. Gonçalves, Cynthia Ferrari, Claudio José Magon, Paulo S. Pizani, Andrea S. S. de Camargo, and Hellmut Eckert
   Structure−property relations in fluorophosphate glasses: An integrated spectroscopic strategy,
   J. Phys. Chem. C 121, 2968-2986 (2017).
   Abstract
4. R. Giovine, Ch. Volkringer, S. E. Ashbrook, J. Trébosc, D. McKay, Th. Loiseau, J.-P. Amoureux, O. Lafon, and F. Pourpoint
   Solid-state NMR spectroscopy proves the presence of penta-coordinated Sc sites in MIL-100(Sc),
   Chem. Eur. J. 23, 9525-9534 (2017).
   Abstract
5. Thomas Braeuniger, Andreas J. Hofmann, Igor L. Moudrakovski, Constantin Hoch, and Wolfgang Schnick
   A ⁴⁵Sc-NMR and DFT calculation study of crystalline scandium compounds,
   Solid State Sciences 51, 1-7 (2016).
   Abstract
6. Itaru Okinawa and Hitoshi Takamura
   ⁴⁵Sc NMR spectroscopy and first-principles calculation on the symmetry of ScO₆ polyhedra in BaO–Sc₂O₃-based oxides,
   Dalton Trans. 43, 9714-9721 (2014).
   Abstract
7. Karen E. Johnston, Martin R. Mitchell, Frédéric Blanc, Philip Lightfoot, and Sharon E. Ashbrook
   Structural study of La_1-xY_xScO₃, combining neutron diffraction, solid-state NMR, and first-principles DFT calculations,
   J. Phys. Chem. C 117, 2252-2265 (2013).
   Abstract
8. C. Merkens, O. Pecher, F. Steuber, S. Eisenhut, A. Görne, F. Haarmann, and U. Englert
   Crystal-to-crystal transformations in a seven-coordinated scandium complex,
   Z. Anorg. Allg. Chem. 639, 340-346 (2013).
   Abstract
9. C. Vinod Chandran, Jérôme Cuny, Régis Gautier, Laurent Le Pollès, Chris J. Pickard, and Thomas Bräuniger
   Improving sensitivity and resolution of MQMAS spectra: A ⁴⁵Sc-NMR case study of scandium sulphate pentahydrate,
   J. Magn. Reson. 203, 226-235 (2010).
   Abstract
10. M. D. Alba, P. Chain, P. Florian, and D. Massiot
    ⁴⁵Sc spectroscopy of solids: Interpretation of quadrupole interaction parameters and chemical shifts,
    J. Phys. Chem. C 114, 12125-12132 (2010).
    Abstract
11. L. A. O'Dell, K. J. Harris, and R. W. Schurko
    Optimized excitation pulses for the acquisition of static NMR powder patterns from half-integer quadrupolar nuclei,
    J. Magn. Reson. 203, 156-166 (2010).
    Abstract
12. Ivan Hung, Julien Trébosc, Gina L. Hoatson, Robert L. Vold, Jean-Paul Amoureux, and Zhehong Gan
    Q-shear transformation for MQMAS and STMAS NMR spectra,
    J. Magn. Reson. 201, 81-86 (2009).
    Abstract
13. Kimberly E. Kelsey, Jonathan F. Stebbins, David M. Singer, Gordon E. Brown Jr., Jed L. Mosenfelder, and Paul D. Asimow
    Cation field strength effects on high pressure aluminosilicate glass structure: Multinuclear NMR and La XAFS results,
    Geochim. Cosmochim. Acta 73, 3914-3933 (2009).
    Abstract
14. T. Harmening, H. Eckert, and R. Pöttgen
    Defects in half-Heusler type antimonides ScTSb (T = Ni, Pd, Pt) ,
    Solid State Sciences 11, 900-906 (2009).
    Abstract
15. T. Harmening, H. Eckert, D. Johrendt, and R. Pöttgen
    Centrosymmetric silicide ScNiSi₃ - Structure, chemical bonding, and ⁴⁵Sc solid state NMR,
    Solid State Sciences 10, 544-549 (2008).
16. T. Brauniger and P. K. Madhu
    Fast amplitude-modulated pulse trains with frequency sweep (SW-FAM) in solid-state NMR of spin-7/2 nuclei,
    J. Magn. Reson. 193, 102-109 (2008).
17. D. Khabibulin, K. Romanenko, M. Zuev, and O. Lapina
    Solid state NMR characterization of individual compounds and solid solutions formed in Sc₂O₃-V₂O₅-Nb₂O₅-Ta₂O₅ system,
    Magn. Reson. Chem. 45, 962-970 (2008).
18. Namjun Kim, Jonathan F. Stebbins, Simona Quartieri, and Roberta Oberti
    Scandium-45 NMR of pyrope-grossular garnets: Resolution of multiple scandium sites and comparison with X-ray diffraction and X-ray absorption spectroscopy,
    Am. Mineral. 92, 1875-1880 (2007).
    Abstract
19. D. Mohr, A. S. S. de-Camargo, C. C. de-Araujo, and H. Eckert
    Local environment of scandium in aluminophosphate laser glasses: structural studies by solid state NMR spectroscopy,
    J. Mater. Chem. 17, 3733-3738 (2007).
20. L. Zhang, C. Fehse, H. Eckert, C. Vogt, R. D. Hoffmann, and R. Pöttgen
    Solid state NMR spectroscopy as a probe of structure and bonding in the carbides Sc₃TC₄ (T = Co, Ni, Ru, Rh, Os, Ir),
    Solid State Sci. 9, 699-705 (2007).
21. C. P. Sebastian, H. Eckert, and R. Pottgen
    The stannides ScNi_1.54(1)Sn and ScNi_1.85(1)Sn - Structures, ⁴⁵Sc NMR and ¹¹⁹Sn Mossbauer spectroscopy,
    Solid State Sci. 9, 357-361 (2007).
22. A. Y. H. Lo, V. Sudarsan, S. Sivakumar, F. van-Veggel, and R. W. Schurko
    Multinuclear solid-state NMR spectroscopy of doped lanthanum fluoride nanoparticles,
    J. Am. Chem. Soc. 129, 4687-4700 (2007).
23. N. Kim, C.-H. Hsieh, and J. F. Stebbins
    Scandium coordination in solid oxides and stabilized zirconia: ⁴⁵Sc NMR,
    Chem. Mater. 18, 3855-3859 (2006).
24. A. J. Rossini and R. W. Schurko
    Experimental and theoretical studies of ⁴⁵Sc NMR interactions in solids,
    J. Am. Chem. Soc. 128, 10391-10402 (2006).
25. T. J. Bastow, T. Mathews, and J. R. Sellar
    Al₂O₃ solubility in the fast ion conductor 0.88ZrO₂-(0.12-x)Sc₂O₃-xAl₂O₃ determined by ²⁷Al NMR,
    Solid State Ionics 175, 415-417 (2004).
26. H. S. Park, I. Bull, L. M. Peng, G. Y. J. Victor, C. P. Grey, and J. B. Parise
    Synthesis and structure determination of a new organically templated scandium fluorophosphate framework and its indium analogue,
    Chem. Mater. 16, 5350-5356 (2004).
27. V. V. Laguta, M. D. Glinchuk, I. P. Bykov, R. Blinc, and B. Zalar
    NMR study of ionic shifts and polar ordering in the relaxor ferroelectric Pb(Sc_1/2Nb_1/2)O₃,
    Phys. Rev. B 69, 54103/1-54103/9 (2004).
28. T. Bräuniger, K. Ramaswamy, and P. K. Madhu
    Enhancement of the central-transition signal in static and magic-angle-spinning NMR of quadrupolar nuclei by frequency-swept fast amplitude-modulated pulses,
    Chem. Phys. Lett. 383, 403-410 (2004).
29. T. J. Bastow and S. Celotto
    Clustering and formation of nano-precipitates in dilute aluminium and magnesium alloys,
    Mater. Sci. Eng. C 23, 757-762 (2003).
30. C. M. Morais, M. Lopes, C. Fernandez, and J. Rocha
    Assessing the potential of fast amplitude modulation pulses for improving triple-quantum magic angle spinning NMR spectra of half-integer quadrupolar nuclei,
    Magn. Reson. Chem. 41, 679-688 (2003).
31. P. K. Madhu, O. G. Johannessen, K. J. Pike, R. Dupree, M. E. Smith, and M. H. Levitt
    Application of amplitude-modulated radiofrequency fields to the magic-angle spinning NMR of spin-7/2 nuclei,
    J. Magn. Reson. 163, 310-317 (2003).
32. D. Riou, F. Fayon, and D. Massiot
    Hydrothermal synthesis, structure determination, and solid-state NMR study of the first organically templated scandium phosphate,
    Chem. Mater. 14, 2416-2420 (2002).
33. C. Tien, E. V. Charnaya, S. Y. Sun, R. R. Wu, S. N. Ivanov, and E. N. Khazanov
    ²⁷Al and ⁴⁵Sc NMR studies of the Y₃Sc_xAl_5-xO₁₂ mixed garnets,
    phys. stat. sol. (b) 233, 222-229 (2002).
34. S. E. Ashbrook and S. Wimperis
    Satellite-transition MAS NMR of spin I = 3/2, 5/2, 7/2, and 9/2 nuclei: sensitivity, resolution, and practical implementation,
    J. Magn. Reson. 156, 269-281 (2002).
    
35. J. A. Davies and S. Dutremez
    Solid state NMR studies of d-block and p-block metal nuclei: applications to organometallic and coordination chemistry,
    Coord. Chem. Rev. 114, 201-247 (1992).
36. A. R. Thompson and E. Oldfield
    Solid-state scandium-45, yttrium-89, and lanthanum-139 NMR spectroscopy,
    J. Chem. Soc., Chem. Commun. 27-29 (1987).

Related bibliography

1. Catherine E. Housecroft
   Scandium 1993,
   Coord. Chem. Rev. 146, 37-41 (1995).

More solid-state Sc-45 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)