Adsorption of bi-isonicotinic acid on rutile TiO_2(110)

摘要

Bi-isonicotinic acid (2,2'-bipyridine-4,4'-dicarboxylic acid) is the ligand of several organometallic dyes, used in photoelectrochemical applications. Therefore the atomic scale understanding of the bonding of this molecule to rutile TiO_2(110) should give insight into the crucial dye-surface interaction. High resolution x-ray photoelectron spectroscopy (XPS), near edge x-ray absorption fine structure (NEXAFS), and periodic intermediate neglect of differential overlap (INDO) calculations were carried out on submonolayer bi-isonicotinic acid rutile TiO_2(110). Data from multilayers is also presented to support the submonolayer results. For a multilayer, XPS shows that the carboxyl groups remain in the (pristine) protonated form, and NEXAFS show that the molecular plane is tilted by 57 deg with respect to the surface normal. For the submonolayer, the molecule bonds to the rutile TiO_2(110) surface via both deprotonated carboxyl groups, with a tilt angle of 25 deg, and additionally an azimuthal orientation of 44 deg with respect to the [001] crystallographic direction. The adsorbant system was also investigated by quantum mechanical calculations using a periodic INDO model. The most stable theoretical adsorption geometry involves a twist around the molecular axis, such that the pyridine rings are tilted in opposite directions. Both oxygen atoms of each carboxyl group are bonded to five-fold coordinated Ti atoms (2M-bidentate), in excellent agreement with the experimental results.