Emerging nanocircuit paradigm Graphene-based electronics for nanoscale computing
The continued miniaturization of silicon-based electronic circuits is fast approaching the physical and geometrical limits over the past decades. It is unlikely that these advances in miniaturization can continue in the new millennium. Future nanoelectronics will go beyond the silicon technology. Ne...
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| Published in | 2007 IEEE International Symposium on Nanoscale Architectures pp. 93 - 100 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
Washington, DC, USA
IEEE Computer Society
21.10.2007
IEEE |
| Series | ACM Conferences |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The continued miniaturization of silicon-based electronic circuits is fast approaching the physical and geometrical limits over the past decades. It is unlikely that these advances in miniaturization can continue in the new millennium. Future nanoelectronics will go beyond the silicon technology. New circuit paradigms based on novel nanoscale materials, such as molecular electronic circuits and carbon-based circuits, will be employed. In this paper, we introduce an emerging nanocircuit paradigm, graphene nanoelectronics. Due to its unique quantum effects and electronic properties, researchers predict that graphene-based circuits will replace carbon nanotube circuits and become major building blocks for future nanoscale computing. To manifest its unique electronic properties, we present some of our recent designs, namely a switch, a field-effect transistor and a random access memory array (RAM). We also provide a common platform to simulate the circuit behavior and the platform can be used to design functional graphene-based computing system in future. |
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| AbstractList | The continued miniaturization of silicon-based electronic circuits is fast approaching the physical and geometrical limits over the past decades. It is unlikely that these advances in miniaturization can continue in the new millennium. Future nanoelectronics will go beyond the silicon technology. New circuit paradigms based on novel nanoscale materials, such as molecular electronic circuits and carbon-based circuits, will be employed. In this paper, we introduce an emerging nanocircuit paradigm, graphene nanoelectronics. Due to its unique quantum effects and electronic properties, researchers predict that graphene-based circuits will replace carbon nanotube circuits and become major building blocks for future nanoscale computing. To manifest its unique electronic properties, we present some of our recent designs, namely a switch, a field-effect transistor and a random access memory array (RAM). We also provide a common platform to simulate the circuit behavior and the platform can be used to design functional graphene-based computing system in future. The continued miniaturization of silicon-based electronic circuits is fast approaching the physical and geometrical limits over the past decades. It is unlikely that these advances in miniaturization can continue in the new millennium. Future nanoelectronics will go beyond the silicon technology. New circuit paradigms based on novel nanoscale materials, such as molecular electronic circuits and carbon-based circuits, will be employed. In this paper, we introduce an emerging nanocircuit paradigm, graphene nanoelectronics. Due to its unique quantum effects and electronic properties, researchers predict that graphene-based circuits will replace carbon nanotube circuits and become major building blocks for future nanoscale computing. To manifest its unique electronic properties, we present some of our recent designs, namely a switch, a field-effect transistor and a random access memory array (HAM). We also provide a common platform to simulate the circuit behavior and the platform can be used to design functional graphene-based computing system in future. |
| Author | Wang, Z. F. Jie Chen Shi, Q. W. Huaixiu Zheng |
| Author_xml | – sequence: 1 givenname: Z. F. surname: Wang fullname: Wang, Z. F. organization: Hefei National Laboratory for Physical Sciences at Microscale, Canada – sequence: 2 surname: Huaixiu Zheng fullname: Huaixiu Zheng organization: Electrical and Computer Engineering, University of Alberta, T6G 2V4, Canada – sequence: 3 givenname: Q. W. surname: Shi fullname: Shi, Q. W. organization: Hefei National Laboratory for Physical Sciences at Microscale, Canada – sequence: 4 surname: Jie Chen fullname: Jie Chen organization: Electrical and Computer Engineering, University of Alberta, T6G 2V4, Canada |
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| PublicationTitle | 2007 IEEE International Symposium on Nanoscale Architectures |
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| Snippet | The continued miniaturization of silicon-based electronic circuits is fast approaching the physical and geometrical limits over the past decades. It is... |
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| SubjectTerms | Carbon nanotubes Electronic circuits FETs Hardware Molecular electronics Nanoelectronics Nanostructured materials Networks Networks -- Network types Networks -- Network types -- Ad hoc networks Networks -- Network types -- Ad hoc networks -- Mobile ad hoc networks Organic materials Quantum computing Silicon Switches |
| Subtitle | Graphene-based electronics for nanoscale computing |
| Title | Emerging nanocircuit paradigm |
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