Metal oxide surfaces have been coated by self-assembled monolayers (SAMs) o
f dodecyl phosphate (DDPO4) and 12-hydroxy dodecyl phosphate (OH-DDPO4), by
means of a novel surface-modification protocol based on the adsorption of
the alkyl phosphate ammonium salts from aqueous solution. Formation of DDPO
4 SAMs has been successfully demonstrated on anodized aluminum (Al2O3) as w
ell as on smooth, thin films of tantalum oxide (Ta2O5), niobium oxide (Nb2O
5), zirconium oxide (ZrO2), and titanium oxide (TiO2) deposited on glass su
bstrates, resulting in highly hydrophobic surfaces with advancing water con
tact angles greater than or equal to 110 degrees, SAM formation does not oc
cur on silica surfaces under the same conditions. The formation of SAMs bas
ed on hydroxy-terminated alkyl phosphates (OH-DDPO4) onto Ta2O5 and Nb2O5 h
as also been observed. DDPO4 and OH-DDPO4 were codeposited onto Ta2O5, from
aqueous solutions at different concentration ratios. It is shown that the
water contact angle can be precisely controlled within the range of 110-50
degrees by adjusting the molar ratio of the two different molecules in the
aqueous SAM forming solution. The SAMs were characterized by advancing wate
r contact angle (wettability), microdroplet density measurements (condensat
ion figures to judge homogeneity), and X-ray photoelectron spectroscopy (co
verage and orientation of molecules).