纳电子学
纳电子学(英语:Nanoelectronics)是指纳米技术在电子器件(特别是晶体管等)中应用。虽然普遍认为“纳米技术”是使用低于100纳米的工艺水平,纳电子学还是常用于代指特征尺寸很小的电子器件,在这些器件中,原子间相互作用和粒子的量子力学效应不可忽略。其结果是,当前研究的一些电子器件并没有完全满足纳米技术的定义,不过仍然有许多尖端的器件技术能够达到45纳米、32纳米甚至22纳米工艺水平。
纳电子学有时被视为破坏性创新,这是因为它研究的器件产品于传统的晶体管差异很大。目前一些研究的对象有:混合分子半导体电子学、一维碳纳米管、纳米线以及高级的分子电子学、 单原子纳米电子学 [1]。
纳米器件中的电子输运机制是相应电子器件研发和制造的关键。纳米尺度下,电子输运可以是 扩散输运、弹道输运和 量子跃迁的复杂组合。根据达尼尔∙罗德于贝尔实验室提出的罗德理论[2][3]与唐爽和崔瑟豪斯夫人于麻省理工学院提出的唐-崔瑟豪斯理论 [4][5][6][7][8],微电子器件尺度下的电子输运机制依然能由单个电子携带的熵变最大值推知,而此最大值可以通过热功率测得。
参考文献
编辑- ^ Achilli, Simona; Le, Nguyen H.; Fratesi, Guido; Manini, Nicola; Onida, Giovanni; Turchetti, Marco; Ferrari, Giorgio; Shinada, Takahiro; Tanii, Takashi; Prati, Enrico. Position-Controlled Functionalization of Vacancies in Silicon by Single-Ion Implanted Germanium Atoms. Advanced Functional Materials. February 2021, 31 (21): 2011175 [2022-07-10]. arXiv:2102.01390v2
. doi:10.1002/adfm.202011175. (原始内容存档于2022-07-10).
- ^ Rode, Daniel. Electron mobility in direct-gap polar semiconductors. Physical Review B. 1970, 2: 1012. doi:10.1103/PhysRevB.2.1012.
- ^ Rode, Daniel. Low-field electron transport. Semiconductors and Semimetals. 1975, 10: 1–89. doi:10.1016/S0080-8784(08)60331-2.
- ^ Tang, Shuang; Dresselhaus, Mildred. New Method to Detect the Transport Scattering Mechanisms of Graphene Carriers. 2014. arXiv:1410.4907 .
- ^ Tang, Shuang. Extracting the Energy Sensitivity of Charge Carrier Transport and Scattering. Scientific Reports. 2018, 8: 10597. doi:10.1038/s41598-018-28288-y.
- ^ Xu, Dongchao. Detecting the major charge-carrier scattering mechanism in graphene antidot lattices. Carbon. 2019, 144: 601–607. doi:10.1016/j.carbon.2018.12.080.
- ^ Tang, Shuang. Inferring the energy sensitivity and band gap of electronic transport in a network of carbon nanotubes. Scientific Reports. 2022, 12: 2060. doi:10.1038/s41598-022-06078-x.
- ^ Hao, Qing. Transport Property Studies of Structurally Modified Graphene (报告). Arlington, VA: Defense Technical Information Center. 2019 [2023-07-25]. (原始内容存档于2023-06-30).
延伸阅读
编辑Bennett, Herbert S.; Andres, Howard; Pellegrino, Joan; Kwok, Winnie; Fabricius, Norbert; Chapin, J. Thomas. Priorities for Standards and Measurements to Accelerate Innovations in Nano-Electrotechnologies: Analysis of the NIST-Energetics-IEC TC 113 Survey (PDF). Journal of Research of the National Institutes of Standards and Technology. March–April 2009, 114 (2): 99–135. (原始内容 (PDF)存档于2010年5月5日).
Despotuli, Alexander; Andreeva, Alexandra. A Short Review on Deep-Sub-Voltage Nanoelectronics and Related Technologies (PDF). International Journal of Nanoscience (World Scientific Publishing Co.). August–October 2009, 8 (4–5): 389–402. Bibcode:2009IJN....08..389D. doi:10.1142/S0219581X09006328.
- Online course on Fundamentals of Electronics (页面存档备份,存于互联网档案馆) by Supriyo Datta (2008)
外部链接
编辑- Virtual Institute of Spin Electronics
- Site on electronics of Single Walled Carbon nanotube at nanoscale - nanoelectronics (页面存档备份,存于互联网档案馆)
- Site on Nano Electronics and Advanced VLSI Research (页面存档备份,存于互联网档案馆)
- Website of the nanoelectronics unit of the European Commission, DG INFSO (页面存档备份,存于互联网档案馆)
- Nanoelectronics at UnderstandingNano Web site (页面存档备份,存于互联网档案馆)
- Nanoelectronics - PhysOrg (页面存档备份,存于互联网档案馆)
