The thesis is divided into two parts. One is the synthesis of CF3- terminated alkanethiol molecules with different chain lengths and the self-assembled monolayers formed by these molecules on gold and silver. The packing structure and surface property of these SAMs were investigated by ellipsometery, reflection absorption IR (RAIR), contact angle, and photoelectron spectrometer (AC-2), to explore the relationship between surface property and chain length. In the second part, CF3- terminated alkanethiol molecules were used to modify the anode in the fabrication of top-emitting organic light-emitting devices (TOLED). The I-V curve, current density, and current efficiency were investigated. In the first portion, the results of the reflection absorption IR, contact angle, and work function indicated that the even-odd chain-length effect was observed on the gold surface resulting from the orientation difference of the CF3 group in the SAMs absorbed on the gold surface. Little or no odd-even effect was observed on Ag surface. In the second part, the performance of the top emitting device composed of Ag/ CF3-SAM/ NPB/ Alq3/ LiF/ Al/ Ag structure with anode modified by different chain length CF3-terminated alkanethiol molecules showed that the current density decreased with increasing chain length. The current efficiency increased with increasing the chain length. This result indicated that the tunneling barrier introduced by the insulating alkyl chains is affecting the charge injection rather than the dipole orientation difference due to chain length. On the other hand, in the device composed of Au/ CF3-SAM/ BPAPF/ Alq3/ LiF/ Al/ Ag, the result showed that the current density increased with increasing workfunction. Otherwise, The highest current efficiency occurred on the anode modified by CF3(CH2)11SH molecules. This result indicated that modulating the dipole orientation of the insulating alkyl chains could optimize the performance of the device. The trend of current efficiency is rationalized in terms of changing charge balance due to charging hole injection.