Abstract

AbstractNon‐volatile memory device structures such as ferroelectric random‐access memory and ferroelectric tunnel junctions employ switchable spontaneous polarization to hold binary states. These devices can potentially benefit from the imposition of spontaneous internal biases and their resulting effect on the polarization properties of the ferroelectric (or field‐induced ferroelectric/antiferroelectric) layer. While HfO2‐based thin films are ideal candidates for implementation into these devices due to their scalability and silicon compatibility, the phase purity of these oxides is sensitive to the selection of electrode material, preventing incorporation of asymmetric electrode layers into such structures. Within this work, electrode replacement following post‐metallization anneal processing is introduced as a route to achieve ferroelectric and field‐induced ferroelectric HfxZr1−xO2 (HZO) thin films with electrode‐independent phase constitutions. The effects of this process and the corresponding internal biases imposed across the HZO layers due to asymmetric work functions are investigated. It is shown that internal biases vary in magnitude in accordance with prediction based on the work functions of the replaced electrode layers and affect remanent polarization magnitudes. Accordingly, electrode replacement presents a processing route that can readily produce HZO films with spontaneous internal biases and electrode‐independent phase constitutions, facilitating implementation of these ferroelectrics into the next generation device structures.

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