Carbon Nanotubes for Potential Device and Interconnect Applications

2006 IEEE International Conference on IC Design and Technology Pub Date : 2006-08-14 DOI:10.1109/ICICDT.2006.220814

W. Hoenlein

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引用次数: 6

Abstract

The further scaling of silicon devices will hit some roadblocks in the future that may not be overcome by standard technology. The introduction of new materials into silicon technology may help for a while, but integration issues have to be solved in advance. Improvements can, however, also be achieved by new material configurations like nanocrystals that are not formed by subtractive patterning techniques but by self-organized bottom-up approaches. In this paper we address the prospects for nanoelectronics to exploit the tremendous possibilities of carbon nanotubes (CNTs). A brief introduction of the CNT basics and growth methods will be given. CNT applications as interconnects will be assessed. A comparison of state-of-the-art silicon MOSFETs with CNT-FETs highlights the significantly better performance of CNT devices. However, the patterning of CNT devices is still an unsolved problem. Some of the most promising fabrication techniques are assessed with respect to integration into a silicon-like technology. Finally, a new device is presented that circumvents the selection and placement problems of CNTs for stand alone transistors

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潜在器件和互连应用的碳纳米管

硅器件的进一步扩展将在未来遇到一些标准技术无法克服的障碍。在硅技术中引入新材料可能会在一段时间内有所帮助，但集成问题必须提前解决。然而，改进也可以通过新的材料结构来实现，比如纳米晶体，它不是通过减法模式技术形成的，而是通过自组织的自下而上的方法形成的。在本文中，我们讨论了纳米电子学的前景，以开发碳纳米管(CNTs)的巨大可能性。简要介绍碳纳米管的基础知识和生长方法。将评估碳纳米管作为互连的应用。最先进的硅mosfet与碳纳米管fet的比较突出了碳纳米管器件的显著更好的性能。然而，碳纳米管器件的图形化仍然是一个未解决的问题。一些最有前途的制造技术是根据集成到类似硅的技术来评估的。最后，提出了一种新的器件，解决了碳纳米管在独立晶体管中的选择和放置问题

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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2006 IEEE International Conference on IC Design and Technology

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