Using post-breakdown conduction study in a MIS structure to better understand the resistive switching mechanism in an MIM stack

Wu X.; Pey K.-L.; Raghavan N.; Liu W.-H.; Li X.; Bai P.; Zhang G.; Bosman M.

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Using post-breakdown conduction study in a MIS structure to better understand the resistive switching mechanism in an MIM stack

机译：在MIS结构中使用击穿后传导研究来更好地了解MIM堆栈中的电阻切换机制

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We apply our understanding of the physics of failure in the post-breakdown regime of high-κ dielectric-based conventional logic transistors having a metal-insulator-semiconductor (MIS) structure to interpret the mechanism of resistive switching in resistive random-access memory (RRAM) technology metal-insulator-metal (MIM) stacks. Oxygen vacancies, gate metal migration and metal filament formation in the gate dielectric which constitute the chemistry of breakdown in the post-breakdown stage of logic gate stacks are attributed to be the mechanisms responsible for the SET process in RRAM technology. In this paper, we draw an analogy between the breakdown study in logic devices and filamentation physics in resistive non-volatile memory.

机译：我们使用对具有金属-绝缘体-半导体（MIS）结构的高κ介电基常规逻辑晶体管的击穿后机制的失效物理学的理解来解释电阻随机存取存储器中的电阻切换机制（ RRAM）技术金属-绝缘体-金属（MIM）堆栈。氧空位，栅极金属迁移和栅极电介质中的金属细丝形成，构成了逻辑栅极堆叠的后击穿阶段击穿的化学物质，归因于RRAM技术中的SET过程。在本文中，我们在逻辑器件的击穿研究与电阻式非易失性存储器中的细丝化物理之间进行类比。

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《Nanotechnology》 |2011年第45期|共7页
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Wu X.; Pey K.-L.; Raghavan N.; Liu W.-H.; Li X.; Bai P.; Zhang G.; Bosman M.;
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1. Using post-breakdown conduction study in a MIS structure to better understand the resistive switching mechanism in an MIM stack [J] . Wu X., Pey K.-L., Raghavan N., Nanotechnology . 2011,第45期

机译：在MIS结构中使用击穿后传导研究来更好地了解MIM堆栈中的电阻切换机制
2. Study of conduction and switching mechanisms in Al/AlOx/WOx/W resistive switching memory for multilevel applications [J] . Zhang Ye, Wu Huaqiang, Bai Yue, Applied Physics Letters . 2013,第23期

机译：Al / AlOx / WOx / W电阻开关存储器中用于多级应用的导通和开关机制的研究
3. Study of conduction and switching mechanisms in Al/AlO_X/WO_X/W resistive switching memory for multilevel applications [J] . Ye Zhang, Huaqiang Wu, Yue Bai, Applied Physics Letters . 2013,第23期

机译：用于多级应用的Al / AlO_X / WO_X / W电阻开关存储器中的导通和开关机制的研究
4. Model and Fitting Results for the Filamentary Conduction in MIM Resistive Switching Devices [C] . F. Palumbo, E. Miranda, G. Ghibaudo, Microelectronics technology and devices - SBMicro 2011 . 2011

机译：MIM电阻开关设备中丝状导电的模型和拟合结果
5. A carrier hopping mechanism for bipolar field induced resistive switching in metal electrode-praseodymium calcium manganese trioxide interfaces [D] . Tsui, Stephen Alan 2008

机译：金属电极镨钙锰三氧化钙界面双极场诱导电阻切换的载体跳跃机制
6. NEXAFS study of electronic and atomic structure of active layer in Al/indium tin oxide/TiO2 stack during resistive switching [O] . Elena Filatova, Aleksei Konashuk, Yuri Petrov, 2016

机译：NEXAFS研究电阻切换过程中Al /铟锡氧化物/ TiO2堆中有源层的电子和原子结构
7. Modulation of resistive switching properties of non-stoichiometric WO3−x based asymmetric MIM structure by interface barrier modification [O] . Krishna Rudrapal, A. Mukherjee, V. Adyam, 2021

机译：界面屏障修改的非化学计量WO3-X非对称MIM结构电阻切换性能的调制

Using post-breakdown conduction study in a MIS structure to better understand the resistive switching mechanism in an MIM stack

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