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We report a calculation of binding energy of the ground state of a hydrogenic donor in a quantum cylindrical GaAs dot surrounded by Ga1-xA1-xAs with finite confinement potentials, in the presence of a uniform electric field applied parallel to the dot axis.The binding energy increases inchmeal as the radius of the dot decreases until a maximum value for a certain value of the quantum dot radii, then begins to drop quickly.Results for the binding energies and electronic wave function density of the hydrogenic-donor as functions of the impurity position, dot thickness and applied electric field are also presented.