We propose nanoscale junction devices utilizing magnetic thin-film edges toward the realization of spintronic devices with a high magnetoresistance (MR) ratio and low resistance-area product (RA). In this study, we fabricate Ni₇₈Fe₂₂/Alq₃/Ni₇₈Fe₂₂ junction devices and investigate electric and magnetic properties. As a result, we have observed that the junction area dependence of the resistance (R-S plot) can be divided into three parts: a ballistic regime (S < 40×40 nm²), a transition region (40×40 nm² < S < 560×560 nm²) and the diffusive regime (S ≥ 560×560 nm²). Especially, a low RA (106 mΩµm²) has been realized in devices with a junction area of 33×33 nm². Moreover, MR effect has been successfully observed in this device of the junction area at room temperature.