R. Declements et al., FREESTANDING DIAMOND THIN-FILMS GROWN ON GLASSY-CARBON SUBSTRATES, Journal of the Electrochemical Society, 143(7), 1996, pp. 150-153
During our recent efforts to grow polycrystalline diamond thin films o
n glassy carbon substrates using microwave-assisted chemical vapor dep
osition, we have reproducibly observed that a freestanding, polycrysta
lline diamond film is formed and can be lifted from the surface easily
. The glassy carbon surface, on which the diamond films form, is gray
in color (as opposed to the normal mirrorlike finish), rough, and hard
as the surface is somewhat abrasion resistant after the growth. We po
stulate that growth of diamond on glassy carbon involves: (i) initial
hydrogenation of the graphite edge plane sites forming a diamondlike s
urface, (ii) nucleation of diamond microparticles on the hydrogenated
edge plane sites, and (iii) coalescence of the microparticles into a c
ontinuous film. The poor adhesion of diamond to the glassy carbon surf
ace, as grown using our conditions, may result from a combination of g
rowth condition and surface microstructural effects. Results from the
characterization of a freestanding film by scanning electron microscop
y, Raman spectroscopy, and cyclic voltammetry are presented.