SOI和SOS伪mosfet中HfO2中间层的铁电特性

2018 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS) Pub Date : 2018-03-19 DOI:10.1109/ULIS.2018.8354731

V. Popov, M. Ilnitsky, V. Antonov, V. Vdovin, I. Tyschenko, A. Miakonkikh, K. Rudenko

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引用次数: 2

摘要

在1100℃高温退火后，首次在Si衬底或C -蓝宝石衬底上通过硅层氢转移获得的SOS结构中实验观察到含有铁电相OII (Pmn21)的多晶HfO2薄膜的形成。在硅上沉积厚度为20 nm的PEALD HfO2夹层，以减少SOI和SOS界面处的缺陷和电荷大小。SOS伪mos晶体管表现出正常的漏极特性，载流子迁移率与体硅相同，正电荷更小(≤1.2×1012 cm−2)。此外，稳定的铁电迟滞(ΔVG ~ 600 V)有望用于嵌入式存储器的形成，并扩展了逻辑电路的功能。

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Ferroelectric properties of HfO2 interlayers in SOI and SOS pseudo-MOSFETs

Formation of a multi-crystalline HfO2 film, containing ferroelectric phase OII (Pmn21), after a high-temperature annealing at 1100°C, was experimentally observed for the first time in SOS structures obtained by a hydrogen transfer of silicon layer on Si or c-sapphire substrates respectively. PEALD HfO2 interlayers with the thickness of 20 nm were deposited on silicon before bonding to reduce the defects and the magnitude of their charge at the SOI and SOS interfaces. SOS pseudo-MOS transistors demonstrate normal drain-gate characteristics with the charge carrier mobility as in bulk silicon and a smaller positive charge (≤ 1.2×10¹² cm⁻²). Moreover, a stable ferroelectric hysteresis with ΔVG ∼600 V promising for the embedded memory formation and they extend the functionality of logic circuits.

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2018 Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS)

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