Aligned, high-density semiconducting carbon nanotube arrays for high-performance electronics

Liu Lijun; Han Jie; Xu Lin; Zhou Jianshuo; Zhao Chenyi; Ding Sujuan; Shi Huiwen; Xiao Mengmeng; Ding Li; Ma Ze; Jin Chuanhong; Zhang Zhiyong; Peng Lian-Mao

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Aligned, high-density semiconducting carbon nanotube arrays for high-performance electronics

机译：高性能电子元件对准，高密度半导体碳纳米管阵列

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Single-walled carbon nanotubes (CNTs) may enable the fabrication of integrated circuits smaller than 10 nanometers, but this would require scalable production of dense and electronically pure semiconducting nanotube arrays on wafers. We developed a multiple dispersion and sorting process that resulted in extremely high semiconducting purity and a dimension-limited self-alignment (DLSA) procedure for preparing well-aligned CNT arrays (within alignment of 9 degrees) with a tunable density of 100 to 200 CNTs per micrometer on a 10-centimeter silicon wafer. Top-gate field-effect transistors (FETs) fabricated on the CNT array show better performance than that of commercial silicon metal oxide-semiconductor FETs with similar gate length, in particular an on-state current of 1.3 milliamperes per micrometer and a recorded transconductance of 0.9 millisiemens per micrometer for a power supply of 1 volt, while maintaining a low room-temperature subthreshold swing of 90 millivolts per decade using an ionic-liquid gate. Batch-fabricated top-gate five-stage ring oscillators exhibited a highest maximum oscillating frequency of 8 gigahertz.

机译：单壁碳纳米管（CNT）可以使整体电路制造小于10纳米，但这需要在晶片上进行可扩展的致密和电子纯半导体纳米管阵列的产生。我们开发了一种多种分散和分选过程，导致极高的半导体纯度和尺寸限制的自对准（DLSA）程序，用于在可调谐密度为100至200cnts的可调密度每微米在10厘米硅晶片上。在CNT阵列上制造的顶栅场效应晶体管（FET）显示出比具有相似栅极长度的商用硅金属氧化物半导体FET的性能更好，特别是每微米为1.3毫安的导通状态电流和记录的跨导每微米0.9毫米臂，电源为1伏，同时使用离子液体栅极保持每十年<90毫伏的低室温亚阈值摆动。批量制造的顶级五级环形振荡器显示出> 8千兆赫兹的最高振荡频率。

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来源
《Science》 |2020年第6493期|850-856|共7页
作者
Liu Lijun; Han Jie; Xu Lin; Zhou Jianshuo; Zhao Chenyi; Ding Sujuan; Shi Huiwen; Xiao Mengmeng; Ding Li; Ma Ze; Jin Chuanhong; Zhang Zhiyong; Peng Lian-Mao;
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作者单位

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Xiangtan Univ Hunan Inst Adv Sensing & Informat Technol Xiangtan 411105 Hunan Peoples R China|Zhejiang Univ Sch Mat Sci & Engn State Key Lab Silicon Mat Hangzhou 310027 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China;

Xiangtan Univ Hunan Inst Adv Sensing & Informat Technol Xiangtan 411105 Hunan Peoples R China|Zhejiang Univ Sch Mat Sci & Engn State Key Lab Silicon Mat Hangzhou 310027 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China|Xiangtan Univ Hunan Inst Adv Sensing & Informat Technol Xiangtan 411105 Hunan Peoples R China|Peking Univ Frontiers Sci Ctr Nanooptoelect Beijing 100871 Peoples R China;

Peking Univ Dept Elect Key Lab Phys & Chem Nanodevices Beijing 100871 Peoples R China|Peking Univ Dept Elect Ctr Carbon Based Elect Beijing 100871 Peoples R China|Xiangtan Univ Hunan Inst Adv Sensing & Informat Technol Xiangtan 411105 Hunan Peoples R China|Peking Univ Frontiers Sci Ctr Nanooptoelect Beijing 100871 Peoples R China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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入库时间 2022-08-18 22:15:07

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专利

1. Scalable Preparation of High-Density Semiconducting Carbon Nanotube Arrays for High-Performance Field-Effect Transistors [J] . Jia Si, Donglai Zhong, Haitao Xu, ACS nano . 2018,第1期

机译：用于高性能场效应晶体管的高密度半导体碳纳米管阵列的可扩展制备
2. Polymer-Free Electronic-Grade Aligned Semiconducting Carbon Nanotube Array [J] . Joo Yongho, Brady Gerald J., Kanimozhi Catherine, ACS applied materials & interfaces . 2017,第34期

机译：无聚合物电子级对齐半导体碳纳米管阵列
3. High-performance electronics using dense, perfectly aligned arrays of single-walled carbon nanotubes [J] . Kang SJ, Kocabas C, Ozel T, Nature nanotechnology . 2007,第4期

机译：高性能电子产品，使用致密，完美对准的单壁碳纳米管阵列
4. Printed High-performance Carbon Nanotube Thin Film Transistors Based on PFO-BT Sorted Large-diameter Semiconducting Carbon Nanotubes [C] . Zhen Liu, Jianwen Zhao, Wenya Xu, Annual NSTI nanotechnology conference and expo;TechConnect world innovation conference expo . 2014

机译：基于PFO-BT分选的大直径半导体碳纳米管的印刷高性能碳纳米管薄膜晶体管
5. Integration of aligned arrays of single-walled carbon nanotubes in electronic devices. [D] . Ho, Xinning. 2011

机译：电子设备中单壁碳纳米管排列阵列的集成。
6. Low-voltage high-performance flexible digital and analog circuits based on ultrahigh-purity semiconducting carbon nanotubes [O] . Ting Lei, Lei-Lai Shao, Yu-Qing Zheng, -1

机译：基于超高纯度半导体碳纳米管的低压高性能柔性数字和模拟电路
7. Cover Picture: Coaxial Carbon/Metal Oxide/Aligned Carbon Nanotube Arrays as High-Performance Anodes for Lithium Ion Batteries (ChemSusChem 5/2014) [O] . Fengliu Lou, Haitao Zhou, Trung Dung Tran, 2014

机译：封面图片：同轴碳/金属氧化物/对齐碳纳米管阵列作为锂离子电池的高性能阳极（Chemsuschem 5/2014）

Aligned, high-density semiconducting carbon nanotube arrays for high-performance electronics

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