The effects of post-annealing and temperature/humidity conditions on the interfacial adhesion energies of atomic layer deposited RuAlO diffusion barrier layer for Cu interconnects were systematically investigated. The initial interfacial adhesion energy measured by four-point bending test was 7.60J/㎡. The interfacial adhesion energy decreased to 5.65J/㎡ after 500 hrs at 85℃/85% T/H condition, while it increased to 24.05J/㎡ after annealing at 200℃ for 500 hrs. The X-ray photoemission spectroscopy (XPS) analysis showed that delaminated interface was RuAlO/SiO₂ for as-bonded and T/H conditions, while it was Cu/RuAlO for post-annealing condition. XPS O1s peak separation results revealed that the effective generation of strong Al-O-Si bonds between AlOₓ and SiO₂ interface at optimum post-annealing conditions is responsible for enhanced interfacial adhesion energies between RuAlO/SiO₂ interface, which would lead to good electrical and mechanical reliabilities of atomic layer deposited RuAlO diffusion barrier for advanced Cu interconnects.