ITZO-Based Self-Aligned Top Gate Thin-Film Transistor with Minimum Parasitic Capacitance for Long-Retention 2T0C DRAM.

IF 3.7 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY ACS Omega Pub Date : 2024-12-31 eCollection Date: 2025-01-14 DOI:10.1021/acsomega.4c08274

Jeong-Min Park, Sein Lee, Junseo Lee, Jang-Yeon Kwon

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Abstract

We developed a two-transistor, zero-capacitor (2T0C) gain-cell memory featuring a self-aligned top-gate-structured thin-film transistor (TFT) for the first time. The proposed indium tin zinc oxide (ITZO) channel-incorporated architecture was specifically engineered to minimize parasitic capacitance for achieving long-retention 2T0C memory operations. A typical 2T0C structure features five types of parasitic capacitances; however, the proposed SATG design effectively used an essential gate insulator capacitance (C _OX) and reduced four nonessential capacitances (C _WBL-WWL, C _WWL-SN, C _RWL-SN, and C _RBL-SN) to virtually zero. The ITZO-based 2T0C gain-cell memory achieved a retention time >10,000 s owing to the extremely low off-current (2.33 × 10^-18 A/μm), superior positive-bias stability (0.71 V), and high saturation mobility [17.52 cm²/(V s)] of the optimized TFT structure. Our proposed memory with long retention and high endurance is a promising solution for next-generation 3D-integrated stacked dynamic random-access memories and defines a new structural standard for future memory architectures.

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具有最小寄生电容的itzo自对准顶栅薄膜晶体管用于长保持2T0C DRAM。

我们首次开发了一种双晶体管，零电容（2T0C）增益单元存储器，具有自对准顶门结构薄膜晶体管（TFT）。所提出的铟锡氧化锌（ITZO）通道集成架构专门设计用于最小化寄生电容，以实现长时间保持2T0C存储操作。典型的2T0C结构具有五种寄生电容；然而，提出的SATG设计有效地使用了一个基本栅极绝缘体电容（C OX），并将四个非必要电容（C WBL-WWL, C WWL-SN， C RWL-SN和C RBL-SN）减少到几乎为零。由于优化的TFT结构具有极低的关断电流（2.33 × 10-18 a /μm）、优异的正偏置稳定性（0.71 V）和高饱和迁移率（17.52 cm2/(V s)），基于TFT的2T0C增益单元存储器的保留时间达到了bbb10 10,000 s。我们提出的具有长保留和高耐用性的存储器是下一代3d集成堆叠动态随机存取存储器的有前途的解决方案，并为未来的存储器架构定义了新的结构标准。

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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来源期刊

ACS Omega Chemical Engineering-General Chemical Engineering

CiteScore

6.60

自引率

4.90%

发文量

3945

审稿时长

2.4 months

期刊介绍： ACS Omega is an open-access global publication for scientific articles that describe new findings in chemistry and interfacing areas of science, without any perceived evaluation of immediate impact.

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