Solid-state krypton NMR references

1. Z. I. Cleveland and T. Meersmann
   Studying porous materials with krypton-83 NMR spectroscopy,
   Magn. Reson. Chem. 45, S12-S23 (2007).
2. Z. I. Cleveland, K. F. Stupic, G. E. Pavlovskaya, J. E. Repine, J. B. Wooten, and T. Meersmann
   Hyperpolarized ⁸³Kr and ¹²⁹Xe NMR relaxation measurements of hydrated surfaces: Implications for materials science and pulmonary diagnostics,
   J. Am. Chem. Soc. 129, 1784-1792 (2007).
3. Z. I. Cleveland, G. E. Pavlovskaya, K. F. Stupic, C. F. LeNoir, and T. Meersmann
   Exploring hyperpolarized ⁸³Kr by remotely detected NMR relaxometry,
   J. Chem. Phys. 124, 44312/1-44312/7 (2006).
4. K. F. Stupic, Z. I. Cleveland, G. E. Pavlovskaya, and T. Meersmann
   Quadrupolar relaxation of hyperpolarized krypton-83 as a probe for surfaces,
   Solid State Nucl. Magn. Reson. 29, 79-84 (2006).
5. C. F. Horton-Garcia, G. E. Pavlovskaya, and T. Meersmann
   Introducing krypton NMR spectroscopy as a probe of void space in solids,
   J. Am. Chem. Soc. 127, 1958-1962 (2005).
6. R. Butscher, G. Wäckerle, and M. Mehring
   Nuclear quadrupole surface interaction of gas phase ⁸³Kr: comparison with ¹³¹Xe,
   Chem. Phys. Lett. 249, 444-450 (1996).
7. P. Ingman, J. Jokisaari, and P. Diehl
   ⁸³Kr and ¹³¹Xe NMR of the noble gases dissolved in nematic liquid crystals. Determination of quadrupole couplings and electric field gradients,
   J. Magn. Reson. 92, 163-169 (1991).
   Abstract
8. D. F. Cowgill and R. E. Norberg
   Pulsed NMR studies of self-diffusion and defect structure in liquid and solid krypton,
   Phys. Rev. B 13, 2773-2781 (1976).