Investigation of Pt-Salt-Doped-Standalone- Multiwall Carbon Nanotubes for On-Chip Interconnect Applications

Liang Jie; Chen Rongmei; Ramos Raphael; Lee Jaehyun; Okuno Hanako; Kalita Dipankar; Georgiev Vihar; Berrada Salim; Sadi Toufik; Uhlig Benjamin; Lilienthal Katherina; Dhavamani Abitha; Konemann Fabian; Gotsmann Bernd; Goncalves Goncalves; Chen Bingan; Asenov Asen; Dijon Jean; Todri-Sanial Aida

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Investigation of Pt-Salt-Doped-Standalone- Multiwall Carbon Nanotubes for On-Chip Interconnect Applications

机译：片上互连应用的掺Pt盐的独立式多壁碳纳米管的研究

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In this paper, we investigate, by combining electrical measurements with an atomistic-to-circuit modeling approach, the conductance of doped standalone multiwall carbon nanotubes (CNTs) as a viable candidate for the next generation of back-end-of-line interconnects. Ab initio simulations predict a doping-related shift of the Fermi level, which reduces shell chirality variability and improves electrical resistivity up to 90% by converting semiconducting shells to metallic. Electrical measurements of Pt-salt-doped CNTs provide up to 50% of resistance reduction, which is a milestone result for future CNT interconnect technology. Moreover, we find that defects and contacts introduce additional resistance, which limits the efficiency of doping, and are the primary cause for the mismatch between theoretical predictions and experimental measurements on doped CNTs.

机译：在本文中，我们通过将电学测量与原子-电路建模方法相结合，研究了掺杂的独立式多壁碳纳米管（CNT）的电导率，作为下一代后端互连的可行选择。从头算模拟可以预测与费米能级相关的掺杂变化，通过将半导电壳转换为金属壳，可以降低壳的手性变异性，并将电阻率提高多达90％。掺杂Pt盐的CNT的电学测量可提供高达50％的电阻降低，这是未来CNT互连技术的里程碑式结果。此外，我们发现缺陷和接触引入了额外的电阻，这限制了掺杂的效率，并且是导致掺杂碳纳米管的理论预测与实验测量之间不匹配的主要原因。

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来源
《IEEE Transactions on Electron Devices》 |2019年第5期|2346-2352|共7页
作者
Liang Jie; Chen Rongmei; Ramos Raphael; Lee Jaehyun; Okuno Hanako; Kalita Dipankar; Georgiev Vihar; Berrada Salim; Sadi Toufik; Uhlig Benjamin; Lilienthal Katherina; Dhavamani Abitha; Konemann Fabian; Gotsmann Bernd; Goncalves Goncalves; Chen Bingan; Asenov Asen; Dijon Jean; Todri-Sanial Aida;
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作者单位

Univ Montpellier, Microelect Dept, LIRMM, CNRS, F-34095 Montpellier, France;

Univ Montpellier, Microelect Dept, LIRMM, CNRS, F-34095 Montpellier, France;

Univ Grenoble Alpes, CEA, LITEN, F-38400 Grenoble, France;

Univ Glasgow, Sch Engn, Glasgow G12 8QQ, Lanark, Scotland;

Univ Grenoble Alpes, INAC, CEA, F-38400 Grenoble, France;

Univ Grenoble Alpes, INAC, CEA, F-38400 Grenoble, France;

Univ Glasgow, Sch Engn, Glasgow G12 8QQ, Lanark, Scotland;

Univ Glasgow, Sch Engn, Glasgow G12 8QQ, Lanark, Scotland;

Aalto Univ, Sch Sci, Dept Neurosci & Biomed Engn, Espoo 02150, Finland;

Fraunhofer IPMS, D-01109 Dresden, Germany;

Fraunhofer IPMS, D-01109 Dresden, Germany;

Fraunhofer IPMS, D-01109 Dresden, Germany;

IBM Res Zurich, CH-8803 Ruschlikon, Switzerland;

IBM Res Zurich, CH-8803 Ruschlikon, Switzerland;

Aixtron Ltd, Cambridge CB24 4FQ, England;

Aixtron Ltd, Cambridge CB24 4FQ, England;

Univ Glasgow, Sch Engn, Glasgow G12 8QQ, Lanark, Scotland;

Univ Grenoble Alpes, CEA, LITEN, F-38400 Grenoble, France;

Univ Montpellier, Microelect Dept, LIRMM, CNRS, F-34095 Montpellier, France;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种 eng
中图分类
关键词
Carbon nanotube (CNT); CNT contact resistance; defective CNTs; doped CNTs; doping process of CNT; individual CNT growth; local on-chip interconnects;

机译：碳纳米管（CNT）;CNT接触电阻;缺陷CNT;掺杂CNT;CNT的掺杂过程;单独的CNT生长;局部片上互连;

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1. High-Frequency Modeling of On-Chip Coupled Carbon Nanotube Interconnects for Millimeter-Wave Applications [J] . Wen-Sheng Zhao, Jie Zheng, Linxi Dong, Components, Packaging and Manufacturing Technology, IEEE Transactions on . 2016,第8期

机译：毫米波应用的片上耦合碳纳米管互连的高频建模
2. Performance Comparisons Between Carbon Nanotubes, Optical, and Cu for Future High-Performance On-Chip Interconnect Applications [J] . Kyung-Hoae Koo, Hoyeol Cho, Kapur P., IEEE Transactions on Electron Devices . 2007,第12期

机译：碳纳米管，光学材料和铜之间的性能比较，以用于未来的高性能片上互连应用
3. Towards Entire-Carbon-Nanotube Circuits: The Fabrication of Single-Walled-Carbon-Nanotube Field-Effect Transistors with Local Multiwalled-Carbon-Nanotube Interconnects [J] . Xuelei Liang, Sheng Wang, Xianlong Wei, Advanced Materials . 2009,第13期

机译：走向整个碳纳米管电路：带有局部多壁碳纳米管互连的单壁碳纳米管场效应晶体管的制造
4. Performance analysis of single-walled carbon nanotube and multi-walled carbon nanotube in 32nm technology for on-chip interconnect applications [C] . Murugeswari P., Kabilan A.P., Vaishnavi M., International Conference on Computing Communication and Networking Technologies . 2014

机译：片上互连应用中32nm单壁碳纳米管和多壁碳纳米管的性能分析
5. Investigation on in-situ growth of carbon nanotube network by chemical vapor deposition for electrical interconnect applications. [D] . Pandowo, Eko Ariyanto. 2009

机译：通过化学气相沉积在电互连应用中研究碳纳米管网络的原位生长。
6. Facile Fabrication of 3D Porous Sponges Coated with Synergistic Carbon Black/Multiwalled Carbon Nanotubes for Tactile Sensing Applications [O] . Yousef Al-Handarish, Olatunji Mumini Omisore, Wenke Duan, 2020

机译：用于涂有协同炭黑/多壁碳纳米管的3D多孔海绵的面部制造用于触觉传感应用
7. Investigation of Pt-Salt-Doped-Standalone- Multiwall Carbon Nanotubes for On-Chip Interconnect Applications [O] . Jie Liang, Rongmei Chen, Raphael Ramos, 2019

机译：用于片上互连应用的Pt-盐掺杂独立碳纳米管的研究

Investigation of Pt-Salt-Doped-Standalone- Multiwall Carbon Nanotubes for On-Chip Interconnect Applications

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