Traditional phase change materials (PCMs) such as Ge₂Sb₂Te₅ (GST) can show as high as 10⁵ resistance reduction upon phase transition.Tthe amorphous and cubic-phase of GST exhibited p-type semiconducting behavior, while the hexagonal phase of GST was a degenerated a p-type semiconductor showing a metallic conduction behavior at room temperature. In a practical memory cell, to increase the storage density and enable the integration of the logic circuit, the memory cells are usually required to be scaled in ~nm order. In nm-sized cells, the contact resistance between PCM and metal electrode becomes a dominant resistance component in the whole cell. Consequently, the contact resistance significantly influences high read accuracy and heat efficiency of the nm-sized memory cell compared to the bulk PCMs themselves. In this study, we proposed a new phase change memory operating principle relying on the contact resistance change of a PCM.