Solid-State NMR in Materials Science: Principles and ApplicationsCRC Press, 19 avr. 2016 - 280 pages Solid-state NMR is a powerful physical method widely applied in modern fundamental and applied science, medicine, and industry. Its role is particularly valuable in materials chemistry due to the capability of solid-state NMR to rapidly solve tasks connected with structural descriptions of complex systems on macro and/or molecular levels, and the i |
Table des matières
General Principles of Pulsed NMR and NMR Techniques
| 1 |
On Amorphous Materials as Potential Objects in SolidState NMR Studies Common and Key Problems
| 37 |
Features of SolidState NMR Diamagnetic Materials
| 57 |
Practice of Multinuclear NMR in Diamagnetic Solids General Information and Examples of Applications
| 99 |
Dynamics in Diamagnetic Materials from SolidState NMR Methods Measurements and Analysis
| 139 |
Strategies in SolidState Multinuclear NMR Studies of Diamagnetic Porous Materials
| 165 |
Paramagnetic Effects in SolidState NMR
| 191 |
Strategy in NMR Studies of Amorphous Porous Paramagnetic Materials
| 231 |
Back Cover | 259 |
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Expressions et termes fréquents
analysis anisotropy applied approach broadened calculations centers characterized Chem chemical shift collected complex components constant containing coordinate correlation corresponding cross-polarization curves deconvolution depend described detected determined dipolar direct distances distributions effects electron emphasized energy Equation example excitation experimental expressed external magnetic field Figure Finally frequency function groups illustrates important increasing intensity interactions ions isotropic lead Magn materials matrix measured mechanism methods molecular molecules motions nature NMR experiments NMR spectra noted Nucl nuclear nuclei observed obtained paramagnetic parameter particularly patterns performed Phys pore porous practice presence principal probing Prog pulse sequence quadrupolar ratios recorded relatively relaxation represented Reproduced with permission require Reson respectively result rotating sample Scheme sensitivity shapes shown sideband signal silica simple single situated solid-state NMR solids Spectrosc spectrum spinning rates static strong strongly structural studies surface technique temperature tensor typical values