Application of HfSiON to Deep-Trench Capacitors of Sub-45-nm-Node Embedded Dynamic Random-Access Memory

Ando, Takashi; Sato, Naoyuki; Hiyama, S.; Hirano, Takuichi; Nagaoka, Kojiro; Abe, Hiroya; Okuyama, Atsushi; Ugajin, Hajime; Tai, K.; Fujita, Shigeru; Watanabe, Kôji; Katsumata, Ryoichi; Idebuchi, J.; Suzuki, Takashi; Hasegawa, Toshiaki; Iwamoto, Hayato; Kadomura, S.

doi:10.1143/jjap.45.3165

Cited by 11 publications

(4 citation statements)

References 5 publications

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“…Obviously the type and amount of impurities also will be different for these precursors and differences in film density, film composition, roughness, crystallinity can result in different performance of the films in semiconductor devices. The chlorine incorporated in gate stack from HfCl 4 is thought to be a fairly acceptable trace impurity (22), possibly more than carbon from metal amide (23). In one study, both types of precursors yielded HfO 2 transistors with comparable electrical characteristics ( 24 ).…”

Section: Introductionmentioning

confidence: 99%

Impact of Hf-Precursor Choice on Scaling and Performance of High-k Gate Dielectrics

Maes

Fedorenko

Delabie³

et al. 2007

ECS Trans.

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Downscaling of CMOS gate stacks requires introduction of ultra-thin high-k dielectrics such as HfO2. Atomic Layer Deposition has excellent characteristics for depositing such films. We have compared HfCl4/H2O and TEMAH/O3 ALD between 245ºC and 370ºC. Growth behavior and electrical performance are discussed as function of process parameters. Precursor choice has a clear impact on HfO2 deposition process and device performance. Both precursors demonstrate good growth nucleation on -OH rich starting surfaces. TEMAH shows better nucleation on low -OH density surfaces, suggesting a potential advantage for interface optimization towards low EOT. However, with HfCl4 lowest leakage currents were obtained as well as excellent interface scaling results by using well chosen interface layers. The leakage current of TEMAH/O3 layers strongly depends on the ALD process temperature and oxidizer dose, suggesting the impact of C impurities on the dielectric properties. Overall the HfCl4 approach seems to be the most promising solution.

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Section: Introductionmentioning

confidence: 99%

Impact of Hf-Precursor Choice on Scaling and Performance of High-k Gate Dielectrics

Maes

Fedorenko

Delabie³

et al. 2007

ECS Trans.

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“…We speculate that a factor which may be contributing to the leakage differences across the wafer is differences in in-film carbon due to the ligands in the metallorganic precursor. It has been previously shown that a strong correlation exists between in-film carbon and leakage current using metallorganic precursors and an ozone oxidant in an ALD process for the deposition of an HfO 2 -based dielectric(13). Further work would be required to improve the across wafer non-uniformity for the O 3 -based process possibly by optimizing pulse and purge times for growth on the bottom electrode.Fig.…”

mentioning

confidence: 99%

Process-Induced ReRAM Performance Improvement of Atomic Layer Deposited HfO₂ for Analog In-Memory Computing Applications

Consiglio

Higuchi

Ando³

et al. 2021

ECS Trans.

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We evaluated atomic layer deposition (ALD) for the growth of HfO2 for integration in resistive RAM (ReRAM) test structures on 300mm wafers in order to optimize electrical performance for use as synaptic device elements in analog in-memory computing. The effect of ALD oxidant was evaluated and it was shown that H2O outperformed O3 in terms of better uniformity and lower forming voltage. By utilizing H-based plasma after deposition or inserted as an intermediate step during deposition, we were able to further decrease forming voltage for a fixed dielectric thickness. Reducing deposition temperature to 200°C in conjunction with the H-based plasma treatment resulted in additional reduction in forming voltage. Stable high-resistance switching with analog behavior in scaled BEOL devices was obtained using this HfO2-based ReRAM. Additionally, a tight distribution of forming voltage was obtained ensuring that 99.9999% of devices in a 14nm ReRAM module can be formed below the targeted voltage.

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“…It offers high quality, pinhole-free, and conformal thin films with precise thickness control down to subnanometers . During the past decades, it has demonstrated significant advancements in growing gate dielectrics in complementary metal oxide semiconductor (CMOS) devices, insulating layers in memory devices, optical coating in photonic devices, and surface modification/functionalization for catalysts. − Many research efforts have been devoted to explore the roughness control, surface chemical properties, and conformal coating features of ALD films, which are either amorphous or crystalline. ,, Contemporary research on ALD extends to exploring continuous and rapid film growth at ambient pressure and conformally depositing quantum dots, nanowires (NWs), or epitaxial films. − Such novel advances would make ALD a powerful and versatile nanomanufacturing tool beyond a thin film coating technique. Nevertheless, current understanding of ALD growth is mainly based on surface chemistry, that is, molecular level chemical reactions .…”

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confidence: 99%

Electron Microscopy Observation of TiO₂ Nanocrystal Evolution in High-Temperature Atomic Layer Deposition

Shi

Li²,

Kvit³

et al. 2013

Nano Lett.

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Understanding the evolution of amorphous and crystalline phases during atomic layer deposition (ALD) is essential for creating high quality dielectrics, multifunctional films/coatings, and predictable surface functionalization. Through comprehensive atomistic electron microscopy study of ALD TiO2 nanostructures at designed growth cycles, we revealed the transformation process and sequence of atom arrangement during TiO2 ALD growth. Evolution of TiO2 nanostructures in ALD was found following a path from amorphous layers to amorphous particles to metastable crystallites and ultimately to stable crystalline forms. Such a phase evolution is a manifestation of the Ostwald-Lussac Law, which governs the advent sequence and amount ratio of different phases in high-temperature TiO2 ALD nanostructures. The amorphous-crystalline mixture also enables a unique anisotropic crystal growth behavior at high temperature forming TiO2 nanorods via the principle of vapor-phase oriented attachment.

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Application of HfSiON to Deep-Trench Capacitors of Sub-45-nm-Node Embedded Dynamic Random-Access Memory

Cited by 11 publications

References 5 publications

Impact of Hf-Precursor Choice on Scaling and Performance of High-k Gate Dielectrics

Impact of Hf-Precursor Choice on Scaling and Performance of High-k Gate Dielectrics

Process-Induced ReRAM Performance Improvement of Atomic Layer Deposited HfO₂ for Analog In-Memory Computing Applications

Electron Microscopy Observation of TiO₂ Nanocrystal Evolution in High-Temperature Atomic Layer Deposition

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Application of HfSiON to Deep-Trench Capacitors of Sub-45-nm-Node Embedded Dynamic Random-Access Memory

Cited by 11 publications

References 5 publications

Impact of Hf-Precursor Choice on Scaling and Performance of High-k Gate Dielectrics

Impact of Hf-Precursor Choice on Scaling and Performance of High-k Gate Dielectrics

Process-Induced ReRAM Performance Improvement of Atomic Layer Deposited HfO2 for Analog In-Memory Computing Applications

Electron Microscopy Observation of TiO2 Nanocrystal Evolution in High-Temperature Atomic Layer Deposition

Contact Info

Product

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Process-Induced ReRAM Performance Improvement of Atomic Layer Deposited HfO₂ for Analog In-Memory Computing Applications

Electron Microscopy Observation of TiO₂ Nanocrystal Evolution in High-Temperature Atomic Layer Deposition