Electronic excited states of athracene-9-carboxylic acid chemisorbed on the surface of TiO 2 nanoparticles were investigated by means of the electroabsorption (Stark effect) spectroscopy at low temperature. In addition to a fraction of molecules adsorbed with no significant spectral changes, two forms absorbing at lowered energy (25,600cm −1 and 24,900cm −1 ) were observed, that exhibit a large increase in the excited-minus-ground state dipole moments, 2.7D and 9.5D, respectively, as well as changed molecular polarizabilities. The dipole moments are interpreted as indicators of partial charge-transfer character of the excited state, corresponding to the optical electron transfer from the adsorbate onto TiO 2 concomitantly with the photon absorption. Consequences of these observations are shortly discussed in the context of the electron transfer process in dye-sensitized solar cells.