Structural properties of amorphous hydrogenated carbon. III. NMR investigations

C. Jäger; J. Gottwald; H. W. Spiess; R. J. Newport

doi:10.1103/PhysRevB.50.846

Structural properties of amorphous hydrogenated carbon. III. NMR investigations

C. Jäger, J. Gottwald, H. W. Spiess, and R. J. Newport

Phys. Rev. B 50, 846 – Published 1 July 1994

Abstract

Our NMR studies give experimental evidence of bonding heterogeneity in samples of a-C:H on the nanometer scale. Two classes of protons were identified with distinctly different spin-lattice-relaxation behavior. The difference in the spin-lattice relaxation provides a means of spectral editing of cross-polarization magic-angle spinning, combined rotation and multiple-pulse spectroscopy, dipolar dephasing spectra, and multiple quantum NMR experiments. This combination of the various NMR techniques allows for a detailed structural investigation of a-C:H, e.g., the ${sp}^{2}$ : ${sp}^{3}$ ratio, the relative amount of hydrogenated and nonhydrogenated carbons, etc. A model incorporating the heterogeneity is established and discussed. The NMR results are compared with neutron spectroscopy and diffraction data.

Received 27 September 1993

DOI:https://doi.org/10.1103/PhysRevB.50.846

Authors & Affiliations

C. Jäger, J. Gottwald, and H. W. Spiess

Max-Planck-Institut für Polymerforschung, Postfach 3148, D-55021 Mainz, Germany

R. J. Newport

Physics Laboratory, The University, Canterbury, Kent CT2 7NR, United Kingdom

Structural properties of amorphous hydrogenated carbon. I. A high-resolution neutron-diffraction study

J. K. Walters, P. J. R. Honeybone, D. W. Huxley, R. J. Newport, and W. S. Howells

Phys. Rev. B 50, 831 (1994)

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Vol. 50, Iss. 2 — 1 July 1994

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