This study uses atomic layer deposition (ALD) to develop high-dielectric-constant thin films and encapsulation thin films for pentacene thin-film transistors (TFT), with the goals of lowering the threshold voltage (Vth) and improving the lifetime of the OTFTs while minimizing the encapsulation-induced deterioration. A 70 nm-thick ALD Al2O3 dielectric yielded a Vth of -6.6 V, which was lower than the typical reported value of -50V with SiO2. The ALD encapsulation process caused no detectable deterioration to the pentacene TFTs, and with the ALD temperature set an optimized value of 90℃, the hole mobility of the TFTs increased from 0.34 to 0.52 cm2/Vs upon encapsulation as a result of annealing-enhanced molecular alignment. Encapsulating with a 30 nm-thick ALD Al2O3 film improved the lifetime of the TFTs in ambient air from ~60 hours to 291 hours. Although the ALD films yielded improvements in both Vth and the lifetime, the improvements fell far short of what may be achieved with ALD films’ defect-free characteristic in that the leakage current through the ALD dielectric was ~100-fold that of a typical SiO2 dielectric and that the life time was significantly shorter than reported values with organic encapsulants. The ALD dielectrics and encapsulation will be optimized in the following work through (1) pretreating the surface to ensure thorough and rapid nucleation of the ALD films, (2) fine-tuning the ALD process conditions, and (3) stacking the ALD films with organic films into a multilayer encapsulation film.