The transformation characterization of Ni(OH)₂/NiOOH in Ni-Pt films was investigated using an electrochemical quartz crystal microbalance (EQCM) in an alkaline electrolyte under various experiment conditions. The Ni-Pt films were prepared by electro-deposition on gold-coated quartz crystal chips. When cyclic voltammetry (CV) was performed continually, the OH⁻ ions diffused into the Ni-Pt film to form Ni(OH)₂. The transformation from mixed type Ni(OH)₂/NiOOH to β-Ni(OH)₂/β-NiOOH occurred gradually. The phase transformation of Ni(OH)₂/NiOOH was strongly affected by the composition, deposited weight, and aging conditions of the Ni-Pt films. The results show that high Pt content or high deposited weight of Ni-Pt films postponed the transformation to the β-Ni(OH)₂/β-NiOOH phase. β-Ni(OH)₂ was directly formed by dipping fresh Ni-Pt films in KOH solution while mixed type Ni(OH)₂ was obtained after aging fresh Ni-Pt films in humid O₂ atmosphere. These two pre-aging conditions accelerate the phase transformation of Ni(OH)₂/NiOOH into β-Ni(OH)₂/β-NiOOH. After 1050 and 2100 cycles of the electro-oxidation process of ethanol, the Ni(OH)₂ phase in Ni-Pt films still remained in a β-Ni(OH)₂-like phase with some α-Ni(OH)₂. The well-defined β-Ni(OH)₂ phase that formed in the Ni-Pt film after 1050 cycles of CV was more stable in a KOH solution than in a humid O₂ atmosphere at room temperature. Ni-Pt films were also evaluated as a sensing element for an ethanol sensor.