Robust carbon-nanotube-based nano-electromechanical devices: Understanding and eliminating prevalent failure modes using alternative electrode materials

Loh O.; Wei X.; Ke C.; Sullivan J.; Espinosa H.D.

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Robust carbon-nanotube-based nano-electromechanical devices: Understanding and eliminating prevalent failure modes using alternative electrode materials

机译：强大的基于碳纳米管的纳米机电装置：使用替代电极材料了解并消除普遍的故障模式

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The failure modes common to widely pursued carbon-nanotube-based nano-electromechanical systems are investigated. A fundamental understanding of the underlying mechanisms for failure and their relation to the device design space is developed through complementary in situ electromechanical characterization and dynamic multiphysics models. It is then found that the facile replacement of commonly used metal thin-film electrodes with diamondlike carbon structures leads to a dramatic improvement in reliability. This enables experimental demonstration of numerous actuation cycles without failure, and reliable application to volatile memory operations.

机译：研究了广泛追求的基于碳纳米管的纳米机电系统常见的失效模式。通过互补的原位机电特性和动态多物理场模型，可以对故障的基本机制及其与器件设计空间的关系有一个基本的了解。然后发现，用类金刚石碳结构容易地替换常用的金属薄膜电极导致可靠性的显着提高。这样就可以进行无数次致动循环的实验演示，并且可以可靠地应用于易失性存储器操作。

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来源
《Small》 |2011年第1期|共8页
作者
Loh O.; Wei X.; Ke C.; Sullivan J.; Espinosa H.D.;
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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
carbon nanotubes; diamond-like carbon; failure modes; nano-electromechanical systems; nanoelectronics;

机译：碳纳米管;类金刚石碳;失效模式;纳米机电系统;纳米电子学;

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1. Robust carbon-nanotube-based nano-electromechanical devices: Understanding and eliminating prevalent failure modes using alternative electrode materials [J] . Loh O., Wei X., Ke C., Small . 2011,第1期

机译：强大的基于碳纳米管的纳米机电装置：使用替代电极材料了解并消除普遍的故障模式
2. Carbon-Nanotube-Based Thermoelectric Materials and Devices [J] . Blackburn Jeffrey L., Ferguson Andrew J., Cho Chungyeon, Advanced Materials . 2018,第11期

机译：碳纳米管基热电材料和器件
3. Realizing the Potential of ZnO with Alternative Non-Metallic Co-Dopants as Electrode Materials for Small Molecule Optoelectronic Devices [J] . Yong Hyun Kim, Jin Soo Kim, Won Mok Kim, Advanced Functional Materials . 2013,第29期

机译：利用替代性非金属共掺杂剂作为小分子光电器件的电极材料来实现ZnO的潜力
4. Effect of different electrode materials on electrode erosion characteristics and failure modes of gas spark switch [C] . Wu Jiawei, Han Ruoyu, Liu Qiaojue, IEEE International Conference on Plasma Sciences . 2015

机译：不同电极材料对气体火花开关电极腐蚀特性及失效模式的影响
5. Organic Electrode Materials for Energy Storage Devices [D] . Schon, Tyler Brian. 2017

机译：储能设备用有机电极材料
6. Towards Understanding Early Failures Behavior during Device Burn-In: Broadband RF Monitoring of Atomistic Changes in Materials [O] . Yaw S. Obeng, Chukwudi A. Okoro, Papa K. Amoah, -1

机译：试图了解设备老化过程中的早期故障行为：材料原子变化的宽带RF监控
7. Studies of manganese based oxides as alternative electrode materials for lithium based energy storage devices [O] . Arun Nagasubramanian -1

机译：基于锂基能量存储装置的锰基氧化物的研究

Robust carbon-nanotube-based nano-electromechanical devices: Understanding and eliminating prevalent failure modes using alternative electrode materials

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