Magnetic resonance of carbonaceous solids : developed from a symposium sponsored by the International Chemical Congress of the Pacific Basin Societies
Author(s)
Bibliographic Information
Magnetic resonance of carbonaceous solids : developed from a symposium sponsored by the International Chemical Congress of the Pacific Basin Societies
(Advances in chemistry series, 229)
American Chemical Society, 1993
Available at / 10 libraries
-
No Libraries matched.
- Remove all filters.
Note
Includes bibliographical references and index
Description and Table of Contents
Description
Focuses on magnetic resonance methods for characterizing solid carbonaceous fuels. Covers 2-D methods, high-resolution 13C and 1H NMR (CRAMPS) analyses, dynamic nuclear polarization techniques, temperature-dependent relaxation measurements, chemical methods to improve quantitative reliability, ultrafast MAS methods, and new signal enhancement techniques. Discusses topics of current interest in the areas of ESR, including spin-echo methods, 1-D and 2-D pulses EST
techniques, relaxation time measurements, and ultrahigh frequency measurements. Measurements are made on a set of Argonne Premium Coal samples to compare different magnetic resonance techniques on a homogeneous set of carbonaceous fuel samples.
Table of Contents
- Quantitation in '^3C NMR Spectroscopy of Carbonaceous Solids
- 'H NMR Spectroscopy: Approaches for Carbonaceous Solids
- Solid Materials Research with NMR and Dynamic Nuclear Polarization Spectroscopy
- Advances in Electron Nuclear Double Resonance Spectroscopy
- Strategies for Measurement of Electron Spin Relaxation
- Multifrequency Electron Paramagnetic Resonance Spectroscopy
- High-Temperature Electron Spin Resonance and NMR Methods Applied to Coal
- Diffusion-Coupled Relaxation and the Submicroscopic Structure of Bituminous Coals
- '^3C NMR Spectroscopy of Pyridine and Alkylpyridines Sorbed onto Coal
- Distortion-Free '^3C NMR Spectroscopy in Coal: 'H Rotating-Frame Dynamic Nuclear Polarization and 'H-'^3C Cross-Polarization
- Proton Magnetic Resonance Thermal Analysis of Argonne Premium Coals
- Multivariate Statistical Analysis and Pattern Recognition: Principal-Component Analysis of Coal Solid-State NMR Relaxation Times
- Structural Parameters of Argonne Coal Samples: Solid-State '^3C NMR Spectroscopy
- Characterization of Coal Liquefaction Residues by Solid-State '^3C NMR Spectroscopy
- 'H NMR Spectroscopy and Spin-Lattice Relaxation of Argonne Premium Coals
- High-Field NMR Studies of Argonne Premium Coals
- Solid-State '^3C NMR Studies on Coal and Coal Oxidation
- Measurement of Spin-Lattice Relaxation in Argonne Premium Coal Samples
- Quantitation of Protons in the Argonne Premium Coals by Solid-State 'H NMR Spectroscopy
- Bloch-Decay and Cross-Polarization-Magic-Angle Spinning '^3C NMR Study of the Argonne Premium Coals: Effects of High-Speed Spinning
- High-Resolution 'H NMR Studies of Argonne Premium Coals
- Measurement of '^3C Chemical-Shift Anisotropy in Coal
- 2-mm Band and X-Band Electron Spin Resonance and Electron Spin Echo Investigations of Some Carbonaceous Materials
- Electron Spin Resonance, Electron Nuclear Double Resonance, and Electron Spin Echo Spectroscopic Studies of Argonne Premium Coals
- Electron Paramagnetic Resonance Spin-Probe Studies of Porosity in Solvent-Swelled Coal
- Dynamic In Situ 9-GHz Electron Paramagnetic Resonance Studies of Argonne Premium Coal Samples
- Electron Magnetic Resonance of Standard Coal Samples at Multiple Microwave Frequencies
- Novel Characterization of Argonne Premium Coals with Electron Donors or Acceptors by Electron Paramagnetic Resonance Spectroscopy
- Electron Paramagnetic Resonance and Electron Spin Echo Spectroscopy of Argonne Premium Coals
- Pulsed Electron Nuclear Double Resonance Spectroscopy of Argonne Premium Coals
- Temperature Dependence of the Electron Paramagnetic Resonance Intensity of Whole Coals: The Search for Triplet States
- Measurement of Electron Dipolar Fields and Dynamics in Solids
- Advanced Magnetic Resonance Techniques Applied to Argonne Premium Coals
by "Nielsen BookData"