Rir. Blyth et al., TEMPERATURE-DEPENDENT INTERACTIONS OF C2N2 WITH NI(110) - HIGH-RESOLUTION ELECTRON-SPECTROSCOPY, Surface science, 415(1-2), 1998, pp. 227-240
We present a comprehensive study of the interactions of C2N2 with Ni(1
10) over the temperature range 90-800 K with high resolution X-ray pho
ton spectroscopy, using synchrotron radiation, and high resolution ele
ctron energy loss spectroscopy. At room temperature C2N2 dissociates t
o give a c(2 x 2)-CN structure, which at low coverages consists of a s
ingle in-groove CN species. At high coverages a second CN species is o
bserved, the proportion of which increases upon heating. Additional CN
species can be formed by heating a multilayer - formed by dosing at 9
0 K - to room temperature, where a disordered monolayer results. At le
ast four different adsorption species are indicated for these extra, o
n-ridge, CN species, which undergo thermal decomposition at ca 450 K.
By contrast the in-groove CN is stable to ca 650 K, after which the C
dissolves into the bulk, with the N desorbing at 800 K. C2N2 undergoes
partial dissociation at 90 K, with some competition between C2N2 and
CN for the in-groove sites. Different multilayer growth modes are indi
cated for C2N2 adsorption on clean Ni(110) and the saturated c(2 x 2)-
CN at 90 K. The C2N2 monolayer, produced by warming a multilayer to ca
120 K, is shown to be a combination of in-groove CN and a tilted acro
ss-groove C2N2 species. It is this latter species which dissociates to
give the multiple disordered CN species at room temperature. (C) 1998
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