Experimental Demonstration of Performance Enhancement of MFMIS and MFIS for 5-nm × 12.5-nm Poly-Si Nanowire Gate-All-Around Negative Capacitance FETs Featuring Seed-Layer and PMA-Free Process

2019 Silicon Nanoelectronics Workshop (SNW) Pub Date : 1900-01-01 DOI:10.23919/SNW.2019.8782939

Shen-Yang Lee, Han-Wei Chen, C. Shen, P. Kuo, C. Chung, Yu-En Huang, Hsin-Yu Chen, T. Chao

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引用次数: 3

Abstract

We have experimentally demonstrated fully suspended nanowire (NW) gate-all-around (GAA) negative-capacitance (NC) field-effect transistors (FETs) with ultrasmall channel dimensions (5-nm $\times 12.5 -$nm); they exhibit a remarkable $\mathrm{I}_{on}-\mathrm{I}_{off}$ ratio of over 1010. This work, for the first time, experimentally studies and compares the structures of metal-ferroelectric-metal-insulator-semiconductor (MFMIS) and metal-ferroelectric-insulator-semiconductor (MFIS) NCFETs. The GAA with the MFMIS structure has a higher on-state current owing to the metallic equal-potential layer and superior S.S $._{min}$ of 39.22 mV/decade. A ZrO2 seed-layer is inserted under HfZr $_{1-x}\, \mathrm{O}_{x}($ HZO) to improve the ferroelectric crystallinity. Consequently, post-metal annealing (PMA), the conventional crystallization annealing step, can be omitted in the presence of o-phase. The gate current $(\mathrm{I}_{G})$ is monitored to verify the multi-domain HZO. A negative DIBL of -160 mV/V is observed because of the strong NC effect corresponding to previous simulated results.

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MFMIS和MFIS在5nm × 12.5 nm多晶硅纳米线栅极全能负电容场效应管中的性能增强实验证明

我们通过实验证明了具有超小通道尺寸(5-nm × 12.5 -nm)的完全悬浮纳米线(NW)栅极全能(GAA)负电容(NC)场效应晶体管(fet);它们表现出惊人的$\ mathm {I}_{on}- $ mathm {I}_{off}$比率，超过1010。本文首次对金属-铁电-金属-绝缘体-半导体(MFMIS)和金属-铁电-绝缘体-半导体(MFIS) ncfet的结构进行了实验研究和比较。具有MFMIS结构的GAA具有较高的导通电流，这是由于金属等电位层和优越的S.S $。_{min}$ 39.22 mV/decade。在HfZr $_{1-x}\， \ mathm {O}_{x}($ HZO)下插入ZrO2种子层以提高铁电结晶度。因此，在o相存在的情况下，可以省略传统的结晶退火步骤金属后退火(PMA)。监控栅极电流$(\ mathm {I}_{G})$以验证多域HZO。由于与先前的模拟结果相对应的强NC效应，观察到-160 mV/V的负DIBL。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 Silicon Nanoelectronics Workshop (SNW)

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