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Exploring the Morphotropic Phase Boundary in HfO <sub>2</sub> ‐Based Ferroelectrics for Advanced High‐k Dielectrics

Seungyeol Oh, Hojung Jang, Mostafa Habibi, Minchul Sung, Hyejung Choi, Seyeon Kim, Hyunsang Hwang

2024Advanced Materials Technologies11 citationsDOI

Abstract

Abstract With the increasing demand for high‐performance computing and storage solutions, industries are under pressure to deliver enhanced‐density, high‐speed, cost‐efficient, and reliable memory technologies. The development of advanced high dielectric constant (high‐k) dielectrics for dynamic random‐access memory (DRAM) remains essential yet challenging, with a need for further advancements on scaling and mass production compatibility. A significant advancement has been the discovery of morphotropic phase boundary (MPB) in HfO 2 ‐based ferroelectrics, offering a potential solution to enduring issues in DRAM capacitor technology. The superior performance of MPB‐based Hf x Zr 1‐x O 2 film systems as high‐k dielectrics (k &gt; 60) provides a promising avenue for advancing DRAM technology. This review article aims to propel DRAM development by detailing the principles of MPB‐based high‐k dielectrics, outlining crucial material and engineering parameters, and addressing the need for precise evaluation and analysis, which have previously been neglected. It also discusses the ongoing challenges and future directions in this field.

Topics & Concepts

DramDielectricHigh-κ dielectricDynamic random-access memoryMaterials scienceCapacitorEngineering physicsPhase boundaryUniversal memoryNanotechnologyComputer scienceOptoelectronicsPhase (matter)Electrical engineeringPhysicsEngineeringComputer memorySemiconductor memoryComputer hardwareMemory refreshVoltageQuantum mechanicsFerroelectric and Negative Capacitance DevicesSemiconductor materials and devicesFerroelectric and Piezoelectric Materials