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Deposition of HfO2 by Remote Plasma ALD for High-Aspect-Ratio Trench Capacitors in DRAM

Jiwon Kim, Inkook Hwang, Byungwook Kim, Wookyung Lee, Juha Song, Yeonwoong Jung, Chang‐Bun Yoon

2025Nanomaterials6 citationsDOIOpen Access PDF

Abstract

Dynamic random-access memory (DRAM) is a vital component in modern computing systems. Enhancing memory performance requires maximizing capacitor capacitance within DRAM cells, which is achieved using high-k dielectric materials deposited as thin, uniform films via atomic layer deposition (ALD). Precise film deposition that minimizes electronic defects caused by charged vacancies is essential for reducing leakage current and ensuring high dielectric strength. In this study, we fabricated metal–insulator–metal (MIM) capacitors in high-aspect-ratio trench structures using remote plasma ALD (RP-ALD) and direct plasma ALD (DP-ALD). The trenches, etched into silicon, featured a 7:1 aspect ratio, 76 nm pitch, and 38 nm critical dimension. We evaluated the electrical characteristics of HfO2-based capacitors with TiN top and bottom electrodes, focusing on leakage current density and equivalent oxide thickness. Capacitance–voltage analysis and X-ray photoelectron spectroscopy (XPS) revealed that RP-ALD effectively suppressed plasma-induced damage, reducing defect density and leakage current. While DP-ALD offered excellent film properties, it suffered from degraded lateral uniformity due to direct plasma exposure. Given its superior lateral uniformity, lower leakage, and defect suppression, RP-ALD shows strong potential for improving DRAM capacitor performance and serves as a promising alternative to the currently adopted thermal ALD process.

Topics & Concepts

Atomic layer depositionDynamic random-access memoryMaterials scienceDramCapacitorOptoelectronicsX-ray photoelectron spectroscopyLeakage (economics)CapacitanceDielectricShallow trench isolationTrenchNanotechnologyThin filmElectrical engineeringElectrodeVoltageLayer (electronics)Semiconductor memoryChemistryChemical engineeringEconomicsMacroeconomicsEngineeringPhysical chemistrySemiconductor materials and devicesFerroelectric and Negative Capacitance DevicesAdvanced Memory and Neural Computing
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