Semiconductor quantum dots (QDs) have many desirable characteristics for use as sensitizers, such as enabling tuning of the bandgap based on the quantum confinement effect, a higher extinction coefficient, and facilitating charge injection as a result of the large dipole moment. In this presentation, we describe the exponential optical absorption and photoinduced electron transfer of CdSe quantum dots adsorbed on single crystal rutile TiO₂. The results show that the exponential optical absorption and photoinduced electron transfer depend on the crystal orientation of single crystal rutile TiO₂ substrate. Moreover, the recombination probability of photoinduced electron transfer depends on the crystal orientation of single crystal rutile TiO₂ substrate.