@article{Xu2026, 
author = {Bohan Xu and Florian Wunderwald and Kristina M. Holsgrove and Athira Sunil and Roberto Guido and Julie Laguerre and Pramoda Vishnumurthy and Xuetao Wang and Thomas Mikolajick and Uwe Schroeder},
title = {Overcoming the thickness scaling limit in hafnium-based ferroelectrics via interfacial strain and conductivity engineering},
year = {2026},
journal = {Nano Research},
keywords = {interface, ferroelectrics, strain, electrode, thickness, HZO thin films},
url = {https://www.sciopen.com/article/10.26599/NR.2026.94908815},
doi = {10.26599/NR.2026.94908815},
abstract = {Scaling ferroelectric Hf0.5Zr0.5O2 (HZO) films below 10 nm is critical for low-voltage non-volatile memory but remains challenging due to phase instability and interface-related depolarization fields. Here, we demonstrate that the electrode-ferroelectric interface is the key factor for stabilizing the ferroelectric orthorhombic phase in sub-10 nm HZO films. By comparing films down to 5 nm thickness with TiN and W electrodes, we reveal that W electrodes induce significantly lower in-plane tensile strain due to the formation of an amorphous, conductive WOx interfacial layer. This strain relaxation suppresses the non-polar tetragonal phase favored in ultrathin films, whereas standard TiN electrodes generate high tensile strain that stabilizes the undesirable t-phase. Moreover, the conductive nature of the WOx layer suppresses the depolarization fields typically caused by dielectric TiOxNy interfaces. Consequently, 5 nm HZO films with W electrodes exhibit higher remanent polarization, lower coercive fields, and negligible wake-up effects compared to those with TiN electrodes. Furthermore, we show that the strain-induced performance loss in films with TiN electrodes can be reduced by modifying the Hf:Zr stoichiometry, effectively compensating for the interface strain. These findings establish a critical design rule for interface and strain engineering, providing a pathway to reliable sub-10 nm hafnium-based ferroelectric devices.}
}