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The surface phonons and CH vibrational structure of diamond (100) and (111) surfaces have been examined using high-resolution electron-energy-loss spectroscopy. Experimental phonon features of (21) -reconstructed diamond surfaces H-free (100) and partially H-terminated (111) agree well with scaled phonon frequencies of theoretically predicted modes for similarly reconstructed silicon surfaces. Several modes not detected on silicon surfaces are observed on diamond surfaces, in agreement with scaled theoretical calculations. Vibrational spectra from hydrogen-terminated diamond (11) surfaces reveal several types of CHₗ species, including sp^3 hybridized methyl and methylene groups, and olefinic (sp^2 hybridized) methylene groups. On heating to 1473 K, hydrogen desorbs readily from the (100) surface. Complete removal of hydrogen from the (111) surface by repeated annealing to 1473 K was impossible, although (21) reconstruction had already occurred.
Lee et al. (Thu,) studied this question.