THE ROLE OF NITROGEN AND SULFUR HETEROCYCLES IN CORROSION INHIBITION .1. INITIAL STEPS IN THE ADSORPTION OF BENZOTRIAZOLE AT COPPER(I) AND COPPER(II) OXIDES
Z. Xu et al., THE ROLE OF NITROGEN AND SULFUR HETEROCYCLES IN CORROSION INHIBITION .1. INITIAL STEPS IN THE ADSORPTION OF BENZOTRIAZOLE AT COPPER(I) AND COPPER(II) OXIDES, Langmuir, 9(4), 1993, pp. 993-1000
The adsorption of benzotriazole (BTAH) on Cu2O and CuO surfaces from a
variety of aqueous and nonaqueous solutions has been studied using X-
ray photoelectron spectroscopy (XPS), Auger electron spectroscopy (AES
), and transmission UV measurements. At solution concentrations [BTAH]
< 5 X 10(-3) M a chemisorbed layer is formed on both surfaces within
500 s. Two possible structural models are considered: (A) an adsorbed
monolayer of pure BTAH and (B) a thicker mixed Cu/BTAH layer. AES dept
h profiling and angle-resolved XPS measurements are consistent only wi
th model A. The coverage of this pure monolayer is established by comp
arison of Auger and transmission UV measurements. For chemisorbed BTAH
on a Cu2O surface, the calibration between integrated intensity of th
e 278-nm band and the surface density is established as 2.7 x 10(14) m
olecules/cm2 is similar to integral A dlambda = 0.50. Finally a compar
ison of solution and adsorbed UV band structures and an increase in th
e apparent transition probability by a factor of 4 upon adsorption ind
icate that dissociation of BTAH into BTA- and H+ upon adsorption is li
kely.