Curriculum Vitae of Lian‑Mao Peng

Curriculum Vitae of Lian‑Mao Peng

ADDRESS: School of Electronics, Peking University

Telephone: 86-10-62764967

E-mail: lmpeng@pku.edu.cn

Lang Yun Yuan, Building #12, Room 205

PekingUniversity (Home)

EDUCATION AND DEGREES:

1978‑1983 Peking University, Beijing, PRC； B.Sc in Electron Physics (1982)

1983‑1988 Arizona State University, Tempe AZ, USA； Ph.D in Physics (1988)

PROFESSIONAL EXPERIENCE:

2022-present Dean, School of Electronics, Peking University

2015-present Director, Center for Carbon-based Nanoelectronics, Peking University

2019-present Boya Chair Professor, Peking University

1999-2019 Yangtze Professor, Department of Electronics, Peking University

2003-2019 Director, Key Laboratory for the Physics and Chemistry of Nanodevices,

Minister of Education

2008-2022 Head, Department of Electronics, Peking University

2008-2023 Director, Peking Nanofab, Peking University

2004-2010 Director, Institute of Physical Electronics, Peking University

1995-1999 Senior Research Scientist and Deputy Director, Beijing Laboratory of Electron

Microscopy, Institute of Physics, ChineseAcademy of Sciences

1995-1999 Visiting Professor, University of Oxford, (May-August, 1995; March-May,

1996; May-July, September-October, 1997; October-December, 1998;

September-December, 1999)

1998 January –March, Research Professor, Arizona State University

1992‑1994 Violette and Samuel Glasstone Research Fellow, University of Oxford

Member, Sub-Faculty of Materials, University of Oxford

1989‑1993 Junior Research Fellow, WolfsonCollege, University of Oxford

1989‑1992 Post‑doctoral Research Assistant (with Professor M.J. Whelan, FRS)

Department of Materials, University of Oxford

1988‑1989 Guest Scientist (with Professor J.K. Gjonnes)

Department of Physics, University of Oslo

1983‑1988 Research Assistant (with Professor J.M. Cowley, FRS)

Department of Physics, ArizonaStateUniversity

PROFESSIONAL SOCIETIES:

2019-present Academician, Chinese Academy of Sciences

2000-present Fellow, Institute of Physics, UK

2013-present Vice-President, Chinese Vacuum Society

2011-2013 Chair, Commission on Electron Crystallography, IUCr

2005-2011 Member, Commission on Electron Crystallography, IUCr

2002-2005 Consultant, Commission on Electron Diffraction,

International Union of Crystallography (IUCr)

2008-2016 Vice-President, Chinese Crystallography Society

2006-2013 Vice-President, Chinese MEMS & NEMS Society

2004-2016 Vice-President, Chinese Electron Microscopy Society

1996-2016 Director, Division of Physics and Materials Science,

Member, Executive Committee, Chinese Electron Microscopy Society

JOURNAL ASSOCIATIONS:

1995-present Member, Advisory Editorial Board, Ultramicroscopy

2018-present Member, Editorial Advisory Board of Advanced Functional Materials

2020-present Advisory Editor, Research (A Science Partner Journal)

2019-2021 Co-Editor, Microscopy

2012-2019 Associate Editor, Journal of Apply Physics, AIP

1997-2012 Member, Editorial Board, MICRON

2010-2012 Regional Editor, Journal of Electron Microscopy

2003-2008 Member, Editorial Board, e-Journal of Surface Science and Nanotechnology

2002-2007 Associate Editor, International Journal of Nanoscience

1993 Guest Editor, “Reflection Electron Microscopy” special issue

Ultramicroscopy, Volume 48, Number 4, 1993

2000 Guest Editor, “Electron Microscopy of Aperiodic Materials” special issue

MICRON, Vol. 31, Issue 5, 2000

AWARDS AND HONORS:

2023 China's top 10 scientific and technological progress news

2018 Science and Technology Progress Award

Ho Leung Ho Lee Foundation

2018 A major landmark original achievement,

National science and technology innovation centers

2017 National Innovation Excellence Award

2017 China's top ten scientific and technological advances in higher education

2016 The State National Science Award, P.R. China

For studies on “Carbon based nanoelectronic devices and integration ”

2011 China's top ten scientific advances, 2011

2010 The State National Science Award, P.R. China

For studies on “Studies on the fundamentals of quantitative electron microscopy

and nanostructured titanium oxide”

2009 Lin Zhao Qian Award, Chinese Electron Microscopy Society

2008 Thomson Reuters Research Fronts Award 2008

2003 Lee Hsun Lecture Award, Institute of Metal

2000 China's top ten scientific and technological advances in higher education

1998 Qiu Shi Prize for Outstanding Young Scientist (Physics)

Qiu Shi Science and Technologies Foundation, Hong Kong

1997 Second Prize for Young Scientists (Physics), Chinese Academy of Science

1990 1990 IFSEM (International Federation of Societies for

Electron Microscopy) Presidential Scholar

1986-1988 DEAN'S LIST of Outstanding Scholars, ArizonaStateUniversity

1986 Outstanding Poster Award (with Tung Hsu)

First Conference on Frontiers of Electron Microscopy in

Materials Science, Argonne, IL, April 1986

PRIZE GRANTS:

1993 K.C. Wang Science Research Prize, K.C. Wang Foundation

1994-1998 Research Grant Award for Outstanding Young Scientists (Physics)

National Science Foundation of China (YMB 600,000.00)

1997-2000 100 Talent Program

Chinese Academy of Sciences (YMB 2,000,000.00)

1998-2000 Research Grant Award for Outstanding Young Scientists (Physics)

National Science Foundation of China (YMB 400,000.00)

PUBLICATIONS:

Peer-reviewed journals: over 400, with citation over 32000

Book: High-energy electron diffraction and microscopy

By L.-M. Peng, S.L. Dudarev, M.J. Whelan

(OxfordUniversity Press, 2004)

STUDENT SUPERVISION:

Ph.D students: Gang Ren (1995-97), Jing-qiang Liu (1996-1999) Hai-xiao Gao (1997-1999), Ming Gao (1997-1999) Guo-bing Hu (1998-2002), Ren-chao Che (2000-2003),

Gao-hui Du (2000-2003), Chuan-hong Jin (2001-2006),

Jun Su (2002-present), Rui-hong Wang (2002-2006),

Fang Lin (2001-present), Min-sheng Wang (2001-2006),

You-fan Hu (2002-2008), Ting Zhang (2002-2008),

Hai Ping Lan (2003-2010), Xian-feng Gao (2004-2010),

Yang liu (2004-2010),Wen Liang Li (2005-2010),

Li Ding (2006-2011), Huilong Xu (2006-2011),

Zhenxing Wang (2007-present), Guo Ai (2007-present),

Tian Pei (2008-present), Jinlei Yang (2008-present),

Haitao Xu (2009-present), Wei Li (2009-present)

Shibo Liang (2010-present), Dangmin Yu(2010-present),

Nan Wei (2011-present), Yin Wang (2011-present)

Le Huang (2012-present), Yanbin Chen (2012-present)

Huixin Huang (2012-present)

MS students: Sen-qiang Wang (1990-93), Li-juan Zhou (1995-97),

Yan-qing Deng (1996-1998), Sheng Wang (1999-2002), Zhong-hua Sun (2001-2004)

Postdoctorals: Zheng-fu Dong (1996-98), Zhao-li Zhang (1998-2000)

Zhong-yong Yuan (1999-2001), Jing-yun Wang (2000-2002), Chang-song Liu (2000-2002), Ke-ying Shi (2001-2003), Xue-lei Liang (2001-2003), Suang Zhang (2001-2003),

Ni Bai (2002-2003), Xiao Guang Xu (2004-2006),

Wen Tao Sun (2006-2008), Zhi Yong Zhang (2006-2008),

Sheng Wang (2006-2008), Zhudong Hu (2007-2010),

Yuan Yu (2007-2010), Huilong Xu (2010-2012),

Shuang Liang (2012-2014)

Selected Journal Publications Since 2020

(full list: http://www.researcherid.com/rid/E-2089-2011)

2024

Yttrium-induced Phase-transition technology for forming perfect ohmic contact in two-dimensional MoS₂ transistors, by Jianfeng Jiang, Lin Xu, Luojun Du, Lu Li, Guangyu Zhang, Chenguang Qiu and Lian-Mao Peng, Nature Electronics (2024) Published online: May 27, 2024 | https://doi.org/10.1038/s41928-024-01176-2
Carbon nanotube-based tensor processing unit for energy-efficient computation, by Jia Si, Chenyi Zhao, Panpan Zhang, Haitao Xu, Lin Xu, Lijun Liu, Lian-Mao Peng and Zhiyong Zhang, Nature Electronics (2024) accepted
Gate-Tunable Optical Anisotropy in Wafer-Scale, Aligned Carbon-Nanotube Films, by Jason Lynch, Evan Smith, Adam Alfieri, Baokun Song, Yueli Chen, Chavez Lawrence, Cherie Kagan, Honggang Gu, Shiyuan Liu, Zahra Fakhraai, Lian-Mao Peng, Shivashankar Vangala, Joshua Hendrickson, and Deep Jariwala, Nature Photonics (2024) accepted
Aligned Carbon Nanotube-based electronics on glass wafer, Xiaohan Cheng, Zipeng Pan, Chenwei Fan, Li Ding, Lian-Mao Peng, Science Advances 10 (2024) eadl1636 |
In-Situ Growth of High-Quality Single-Crystal Twisted Bilayer Graphene on Liquid Copper, by Shan Liu, Baizhe He, Wei Yang, Xiahong Zhou, Xudong Xue, Mengya Liu, Yao Zhao, Xinhe Wang, Jia Si, Fuyi Wang, Zhiyong Zhang, Lian-Mao Peng, and Gui 36 Yu, Advanced Materials 36 (2024) 2312125:1-10 | https://doi.org/10.1002/adma.202312125
Inner doping of carbon nanotubes with perovskites for high-performance steep-slope transistors, by Maguang Zhu, Huimin Yin, Jiang Cao, Lin Xu, Peng Lu, Yang Liu, Ling Ding, Chenwei Fan, Haiyang Liu, Yuanfang Zhang, Yizheng Jin, Lian-Mao Peng, Chuanhong Jin, and Zhiyong Zhang, Advanced Materials (2024) revised
Recent Experimental Breakthroughs on 2D Transistors: Approaching the Theoretical Limit, by Hong Li, Qiuhui Li, Ying Li, Zongmeng Yang, Ruge Quhe, Xiaotian Sun, Yangyang Wang, Lin Xu, Lian-Mao Peng, He Tian, Chenguang Qiu, and Jing Lu, Advanced Functional Materials (2024) 2402474 | DOI: 10.1002/adfm.202402474
Emerging materials and transistors for integrated circuits, by Ming Liu and Lian-Mao Peng, National Science Review 11 (2024) nwae040 | DOI10.1093/nsr/nwae040
Wafer-Scale Carbon Nanotubes Diodes Based on Dielectric-Induced Electrostatic Doping, by Xinyue Zhang, Pengkun Sun, Nan Wei, Jia Si, Xiaojing Li, Jinhan Ba, Jiawen Wang, Dongshun Qin, Ningfei Gao, Lei Gao, Haitao Xu, Lian-Mao Peng and Ying Wang, ACS Nano (2024) accepted
Improving Carbon Nanotube-Based Radiofrequency Field-Effect Transistors by the Device Architecture and Doping Process, by Li Ren, Jianshuo Zhou, Zipeng Pan, Haitao Li, Li Ding, Zhiyong Zhang and Lian-Mao Peng, ACS Applied Materials & Interface 16 (2024) 12813-12820 | https://doi.org/10.1021/acsami.3c19479ACS
High-performance thin-film transistors based on aligned carbon nanotubes for mini- and micro-LED displays, Meiqi Xi, Fang Liu, Xuehao Zhu, Yi Li, Lan Bai, Xingxing Chen, Yujia Gong, Yan Guo, Yugang Zhou, Lianmao Peng, Jiahao Kang, Yu Cao, Xuelei Liang, Carbon 218 (2024) 118718

2023

1. Ballistic two-dimensional InSe transistors, by Jianfeng Jiang, Lin Xu, Chenguang Qiu and Lian-Mao Peng, Nature 616 (2023) 470-475 | https://doi.org/10.1038/s41586-023-05819-w
2. Scaling aligned carbon nanotube transistors to a sub-10 nm node, by Yanxia Lin, Yu Cao, Sujuan Ding, Lin Xu, Chenchen Liu, Qianlan Hu, Chuanhong Jin, Lian-Mao Peng and Zhiyong Zhang, Nature Electronics 6 (2023) 506-515 | https://doi.org/10.1038/s41928-023-00983-3
3. In-Situ Growth of High-Quality Single-Crystal Twisted Bilayer Graphene on Liquid Copper, by Shan Liu, Baizhe He, Wei Yang, Xiahong Zhou, Xudong Xue, Mengya Liu, Yao Zhao, Xinhe Wang, Jia Si, Fuyi Wang, Zhiyong Zhang, Lian-Mao Peng, and Gui Yu, Advanced Materials (2023) 2312125:1-10 | https://doi.org/10.1002/adma.202312125
4. High performance carbon nanotube thin film transistor technology, by Lian-Mao Peng, ACS Nano (2023) invited perspective, | https://doi.org/10.1021/acsnano.3c05753
5. Silicon waveguide-integrated carbon nanotubes photodetector with low dark current and 34 GHz bandwidth, by Hongyan Zhao, Leijing Yang, Weifeng Wu, Xiang Cai, Fan Yang, Haojin Xiu, Yongjun Wang, Qi Zhang, Xiangjun Xin, Fan Zhang, Lian-Mao Peng and Sheng Wang, ACS Nano 17 (2023) 15155-15164 | DOI: https://doi.org/10.1021/acsnano.2c12178
6. High-Speed Carbon Nanotube Photodetectors for 2 μm Communications, by Weifeng Wu, Hui Ma, Xiang Cai, Bing Han, Yan Li, Ke Xu, Hongtao Lin, Fan Zhang, Zhangyuan Chen, Zhiyong Zhang, Lian-Mao Peng, and Sheng Wang, ACS Nano (2023) | DOI: https://doi.org/10.1021/acsnano.3c04619
7. An ultrathin flexible programmable spin logic device based on spin-orbit torque, Meiling Li, Chexin Li, Xiaoguang Xu, Mengxi Wang, Zhiqiang Zhu, Kangkang Meng, Bin He, Guoqiang Yu, Youfan Hu, Lian-Mao Peng, and Yong Jiang, Nano Letters 23 (2023) 3818-3825| https://doi.org/10.1021/acs.nanolett.3c00231
8. Improving the Performance of Aligned Carbon Nanotube-based Transistors by Refreshing the Substrate Surface, by Yanxia Lin, Yu Cao, Haozhe Lu; Chenchen Liu, Zirui Zhang, Chuanhong Jin Lian-Mao Peng and Zhiyong Zhang, ACS Applied Materials & Interfaces 15 (2023) 10830-10837
9. Ultra-strong comprehensive radiation effect tolerance in carbon nanotube electronics, by Maguang Zhu, Peng Lu, Xuan Wang, Chen Qian, Huiping Zhu, Yajie Zhang, Jianshuo Zhou, Zhengsheng Han, Jianwei Han, Rui Chen, Bo Li, Lian-Mao Peng and Zhiyong Zhang, Small 19 (2023) 2204537:1-11 | DOI: 10.1002/smll.202204537
10. Amplification-free detection of SARS-CoV-2 down to single virus level by portable carbon nanotube biosensors, by Yuqi Liang, Mengmeng Xiao, Jing Xie, Jiahao Li, Yuyan Zhang, Haiyang Liu, Yang Zhang, Jianping He, Guojun Zhang, Nan Wei, Lian-Mao Peng, Yuehua Ke and Zhi-Yong Zhang, Small (2023) | DOI: 10.1002/smll.202208198
11. Unzipping Carbon Nanotubes to Sub-5-nm Graphene Nanoribbons on Cu(111) by Surface Catalysis, by Wenjie Dong, Xin Li, Shuai Lu, Jie Li, Yansong Wang, Mingjun Zhong, Xu Dong, Zhen Xu, Qian Shen, Song Gao, Kai Wu, Lian-Mao Peng, Shimin Hou, Zhiyong Zhang, Yajie Zhang, Yongfeng Wang, Small (2023) 2308430 | First published: 21 December 2023 https://doi.org/10.1002/smll.202308430
12. Carbon nanotube radiofrequency transistors with f_T/f_MAX of 376/318 GHz, by Jianshuo Zhou, Li Ren, Haitao Li, Xiaohan Cheng, Zipeng Pan, Zhiyong Zhang, Li Ding and Lian-Mao Peng, IEEE Electron Device Letter 44(2) (2023) 329-332 | DOI: 10.1109/LED.2022.3227133
13. Roadmap on Energy Harvesting Materials, by Vincenzo Pecunia, Sohini Kar-Narayan, S. Ravi P. Silva, Li Ding and Lian-Mao Peng, Journal of Physics: Materials 6 (2023) 042501:1-177 | DOI 10.1088/2515-7639/acc550
14. How to Build Good Inverters from Nanomaterial Semiconductor-based Transistors, by Pengkun Sun, Nan Wei, Panpan Zhang, Yingjun Yang, Maguang Zhu, Huiwen Shi, Lian-Mao Peng, Zhiyong Zhang, Nano Research (2023) | https://doi.org/10.1007/s12274-023-5678-y
15. Selective growth of semiconducting single-walled carbon nanotubes solely from carbon monoxide, Xue Zhao, Ningfei Gao, Zeyao Zhang, Qidong Liu, Jian Sheng, Yijie Hu, Ruoming Li, Haitao Xu, Lianmao Peng & Yan Li, Nano Research 16 (2023) 12720-12726
16. Recent Progress of Photodetector based on Carbon Nanotube Film and Application in Optoelectronic Integration, by Xiang Cai, Sheng Wang and Lian-Mao Peng, Nano Research Energy (2023) DOI: https://doi.org/10.26599/NRE.2023.9120058
17. Monolithic three-dimensional integration of aligned carbon nanotube transistors for high-performance integrated circuits, by Chenwei Fan, Xiaohan Cheng, Lin Xu, Maguang Zhu, Sujuan Ding, Chuanhong Jin, Yunong Xie, Lian-Mao Peng, Zhiyong Zhang, InfoMat (2023) e12420:1-12 | http://doi.org/10.1002/inf2.12420
18. Single-walled carbon nanotubes synthesized by laser ablation from coal for field-effect transistors, by Shaochuang Chen, Yuguang Chen, Haitao Xu, Min Lyu, Xinrui Zhang, Zhen Han, Haoming Liu, Yixi Yao, Chi Xu, Jian Sheng, Yifan Xu, Lei Gao, Ningfei Gao, Zeyao Zhang, Lian-Mao Peng and Yan Li, Materials Horizons 10 (2023) 5185–5191| DOI: 10.1039/d3mh01053h

2022

1. Twin physically unclonable functions based on aligned carbon nanotube arrays, by Donglai Zhong, Jingxia Liu, Mengmeng Xiao, Yunong Xie, Huiwen Shi, Lijun Liu, Chenyi Zhao, Li Ding, Lian-Mao Peng and Zhiyong Zhang, Nature Electronics 5 (2022) 424-432
2. How to Report and Benchmark Emerging Field-Effect Transistors, by Zhihui Cheng, Chin-Sheng Pang, Peiqi Wang, Son T. Le, Yanqing Wu, Davood Shahrjerdi, Iuliana Radu, Max C. Lemme, Lian-Mao Peng, Xiangfeng Duan, Zhihong Chen, Joerg Appenzeller, Steven J. Koester, Eric Pop, Aaron D. Franklin, Curt A. Richter, Nature Electronics 5 (2022) 416-423 (29 July 2022). https://doi.org/10.1038/s41928-022-00798-8
3. An epidermal electronic system for physiological information acquisition, processing and storage, by Li Xiang, Yuru Wang, Fan Xia, Fang Liu, Daliang He, Guanhua Long, Xiangwen Zeng, Xuelei Liang, Chuanhong Jin, Yuwei Wang, Anlian Pan, Lian-Mao Peng and Youfan Hu, Science Advances 8 (2022) eabp8075 17 August 2022
4. Observation of biradical spin coupling through hydrogen bonds, by Yang He, Na Li, Ivano Eligio Castelli, et al., Phys. Rev. Lett. 128 (2022) 236401
5. Carbon nanotube-based flexible high-speed circuits with sub-nanosecond stage delays, by Guanhua Long, Wanlin Jin, Fan Xia, Yuru Wang, Tianshun Bai, Xingxing Chen, Xuelei Liang, Lian-Mao Peng and Youfan Hu, Nature Communications (published online: 08 November 2022) 13:6734-1:8 |https://doi.org/10.1038/s41467-022-34621-x
6. Enhancement‐Mode Field‐Effect Transistors and High‐Speed Integrated Circuits Based on Aligned Carbon Nanotube Films, by Yanxia Lin, Shibo Liang, Lin Xu, Lijun Liu, Qianlan Hu, Chenwei Fan, Yifan Liu, Jie Han, Zhiyong Zhang, Lian-Mao Peng, Advanced Functionl Materials 32 (2022) 2104539:1-8 | DOI: 10.1002/adfm.202104539
7. Complementary Transistors Based on Aligned Semiconducting Carbon Nanotube Arrays, by Chenchen Liu, Yu Cao, Bo Wang, Zixuan Zhang, Yanxia Lin, Lin Xu, Yingjun Yang, Chuanhong Jin, Lian-Mao Peng and Zhiyong Zhang, ACS Nano (2022) Publication Date：November 23, 2022 |
8. Wafer-scale fabrication of carbon-nanotube-based CMOS transistors and circuits with high thermal stability, by Nan Wei, Ningfei Gao, Haitao Xu, Zhen Liu, Lei Gao, Haoxin Jiang, Yu Tian, Yufeng Chen, Xiaodong Du and Lian-Mao Peng, Nano Research 15 (2022) 9875-9880 | DOY: 10.1007/s12274-022-4259-9
9. Comparative study of the extraction selectivity of PFO-BPy and PCz for small to large diameter single-walled carbon nanotubes, by Fang Liu; Xingxing Chen; Meiqi Xi; Nan Wei; Lan Bai; Lianmao Peng; Yu Cao, and Xuelei Liang, Nano Research 15 (2022) 8479-8485
10. Light-controlled reconfigurable optical synapse based on Carbon nanotubes/2D Perovskite heterostructure for image recognition, by Li, Yu-tao; Li, Junze; Ren, Li; Xu, Kui; Chen, Sheng; Han, Lei; Liu, Hang; Guo, Xiao-Liang; Yu, Duli; Li, Dehui; Ding, Li; Peng, Lian-Mao; Ren, Tian-Ling, ACS Applied Materials & Interfaces 14 (2022) 28221-28229
11. One-dimensional Perovskite-based Li-Ion Battery Anodes with High Capacity and Cycling Stability, by Hua Kong, Jiafeng Wu, Ying Han, Yu Zhang, Ning Zhou, Qi Chen, Wentao Sun, Huanping Zhou and Lian-Mao Peng, Journal of Energy Chemistry 72 (2022) 73-80
12. Giant negative differential resistance effect caused by cutting off acceptable quantum states in carbon nanotube tunneling devices, by Li Fang, Chenguang Qiu, Hongjie Zhang, Yue Hu, and Lian-Mao Peng, Advanced Electronic Materials 8 (2022) 2101314:1-9 | DOI: 10.1002/aelm.202101314
13. Physics and Applications of Nanotubes, by Shigeo Maruyama, Michael Arnold, Ralph Krupke and Lian-Mao Peng, J. Appl. Phys. 131 (2022) 080401-1:5

2021

1. Radiofrequency transistors based on aligned carbon nanotube arrays, by Huiwen Shi, Li Ding, Donglai Zhong, Jie Han, Lijun Liu, Lin Xu, Pengkun Sun, Hui Wang, Jianshuo Zhou, Li Fang, Zhiyong Zhang and Lian-Mao Peng, Nature Electronics 4 (2021) 405-415 | 10.1038/s41928-021-00594-w
2. Host-guest molecular interaction enabled separation of large-diameter semiconducting single-walled carbon nanotubes, by Xusheng Yang, Tianhui Liu, Ruoming Li, Xiaoxin Yang, Min Lyu, Li Fang, Lei Zhang, Kun Wang, Anquan Zhu, Luyao Zhang, Chenguang Qiu, Yuanzhu Zhang, Xiao Wang, Lian-Mao Peng, Feng Yang and Yan Li, J. Am. Chem. Soc. 143 (2021) 10120-10130 | doi.org/10.1021/jacs.1c02245
3. Monochromatic Carbon Nanotube Tangles Grown by Microfluidic Switching between Chaos and Fractals, by Zhenxing Zhu, Nan Wei, Bowen Yan, Boyuan Shen, Jun Gao, Silei Sun, Huanhuan Xie, Hao Xiong, Chenxi Zhang, Rufan Zhang, Weizhong Qian, Song Fu, Lianmao Peng, and Fei Wei, ACS Nano 15 (2021) 5129-5137
4. Deep-Submicronmeter Complementary Metal-Oxide-Semiconductor Transistors Based on Carbon Nanotube Films, by Huiwen Shi, Li Ding, Donglai Zhong, Lian-Mao Peng and Zhiyong Zhang, Advanced Electronic Materials (2021) 2100751:1-8 | DOI: 10.1002/aelm.202100751
5. Highly Temperature-Stable Carbon Nanotube Transistors and Gigahertz Integrated Circuits for Cryogenic Electronics, by Yunong Xie, Donglai Zhong, Chenwei Fan, Xiaosong Deng, Lian-Mao Peng and Zhiyong Zhang, Advanced Electronic Materials 7 (2021) 2100202:1-7| doi.org/10.1002/aelm.202100202
6. Carbon Nanotube Based Radio Frequency Transistors for K Band Amplifiers, by Jianshuo Zhou, Lijun Liu, Huiwen Shi, Maguang Zhu, Xiaohan Cheng, Li Ren, Li Ding,Lian-Mao Peng and Zhiyong Zhang, ACS Applied Materials & Interfaces 13 (2021) 37475-37482 | DOI: 10.1021/acsami.1c07782
7. Analysing Gamma-Ray Irradiation Effects on Carbon Nanotube Top-Gated Field-Effect Transistors, by Maguang Zhu, Jianshuo Zhou, Pengkun Sun, Lian-Mao Peng and Zhiyong Zhang ACS Applied Materials & Interfaces 13 (2021) 47756-47763
8. Suppression of leakage current in carbon nanotube field-effect transistors, by Lin Xu, Chenguang Qiu, Lian-mao Peng and Zhiyong Zhang Nano Research 14 (2021) 976-981 | doi.org/10.1007/s12274-020-3135-8
9. Charge trap-based carbon nanotube transistor for synaptic function mimicking, by Jie Zhao, Fang Liu, Qi Huang, Tongkang Lu, Meiqi Xi, Lianmao Peng, Xuelei Liang, Nano Research 14 (2021) 4258-4263
10. High-yield and low-cost separation of high-purity semiconducting single-walled carbon nanotubes with closed-loop recycling of raw materials and solvents, by Fang Liu, Xingxing Chen, Haoming Liu, Jie Zhao, Meiqi Xi, Hongshan Xiao, Tongkang Lu, Yu Cao, Yan Li, Lianmao Peng and Xuelei Liang, Nano Research 14 (2021) 4281-4287 | https://doi.org/10.1007/s12274-021-3671-x
11. CNTFET Technology for RF Applications: Review and Future Perspective, by M Hartmann, S Hermann, PF Marsh, C Rutherglen, D. Wang, L. Ding, L.-M. Peng and M. Schroter, IEEE Journal of Microwaves 1 (2021) 275-287
12. The effect of localized strain on the electrical characteristics of curved carbon nanotubes, by Zhenxing Zhu, Nan Wei, Jun Gao, Yaxin Jiang, Lianmao Peng, and Fei Wei, Journal of Applied Physics 129 (2021) 025107:1-7.

2020

1. Aligned, high-density semiconducting carbon nanotube arrays for high-performance electronics, by Lijun Liu1, Jie Han, Lin Xu, Jianshuo Zhou, Chenyi Zhao, Sujuan Ding, Huiwen Shi, Mengmeng Xiao, Li Ding, Ze Ma, Chuanhong Jin, Zhiyong Zhang, Lian-Mao Peng, Science 368 (2020) 850-856 (Highlighted in Phys.Org: https://phys.org/news/2020-05-well-aligned-cnt-arrays-centimeter-silicon.html)
2. Radiation-hardened and repairable integrated circuits based on carbon nanotube transistors with ion gel gates, by Maguang Zhu, Hongshan Xiao, Gangping Yan, Pengkun Sun, Jianhua Jiang, Zheng Cui, Jianwen Zhao, Zhiyong Zhang and Lian-Mao Peng, Nature Electronics 3 (2020) 622-629 | https://doi.org/10.1038/s41928-020-0465-1 (highlighted Nature Electronics: https://www.nature.com/articles/s41928-020-00491-8, in TechXplore: https://techxplore.com/news/2020-10-radiation-immune-chips-fabricate-durable-electronics.html; in Nature Research Device & Materials Engineering Community: https://devicematerialscommunity.nature.com/posts/towards-radiation-damage-immune-carbon-nanotube-integrated-circuits )
3. Flexible Integrated Circuits Based on Carbon Nanotubes, by Youfan Hu, Lian-Mao Peng, Li Xiang and Heng Zhang, Accounts of Materials Research 1 (2020) 88-99 | https://doi.org/10.1021/accountsmr.0c00020
4. Silicon-Waveguide-Integrated Carbon Nanotube Optoelectronic System on a Single Chip, by Ze Ma, Leijing Yang, Lijun Liu, Sheng Wang and Lian-Mao Peng, ACS Nano 14 (2020) 7191
5. Wafer-Scale Uniform Carbon Nanotube Transistors for Ultrasensitive and Label-Free Detection of Disease Biomarkers, by Yuqi Liang, Mengmeng Xiao, Ding Wu, Yanxia Lin, Lijun Liu, Jianping He, Guojun Zhang, Lian-Mao Peng and Zhiyong Zhang, ACS Nano 14 (2020) 8866-8874 | https://dx.doi.org/10.1021/acsnano.0c03523
6. Strengthened CMOS logic for small band-gap semiconductor based high-performance and low-power applications, by Chenyi Zhao, Donglai Zhong, Lijun Liu, Yingjun Yang, Huiwen Shi, Lian-Mao Peng and Zhiyong Zhang, ACS Nano 14 (2020) 15267-15275
7. Ultrasensitive magnetic sensors enabled by heterogeneous integration of graphene Hall elements and silicon CMOS processing circuits, by Tongyu Dai, Chengying Chen, Le Huang, Jianhua Jiang, Lian-Mao Peng and Zhiyong Zhang, ACS Nano 14 (2020) 17606-17614
8. Quality metrology of carbon nanotube thin films and its application for carbon nanotube-based electronics, by Jie Zhao, Lijun Shen, Fang Liu, Pan Zhao, Qi Huang, Hua Han, Lian-Mao Peng and Xuelei Liang, Nano Research 13 (2020) 1749-1755.
9. Drain-Engineered Carbon-Nanotube-Film Field-Effect Transistors with High Performance and Ultra-Low Current Leakage, by Lijun Liu, Chenyi Zhao, Li Ding, Lian-Mao Peng and Zhiyong Zhang, Nano Research 13 (2020) 1875-1881| https://doi.org/10.1007/s12274-019-2558-6
10. n-Type Dirac-Source Field-Effect Transistors Based on a Graphene/Carbon Nanotube Heterojunction, by Mengmeng Xiao, Yanxia Lin, Lin Xu, Bing Deng, Hailin Peng, Lian-Mao Peng, Zhiyong Zhang, Advanced Electronic Materials 6 (2020) 2000258 https://doi.org/10.1002/aelm.202000258
11. Transconductance Amplification in Dirac‐Source Field‐Effect Transistors Enabled by Graphene/Nanotube Hereojunctions, by Lin Xu, Chenguang Qiu, Lian-Mao Peng and Zhiyong Zhang, Advanced Electronic Materials 6 (2020) 1901289
12. Interlayer Binding Energy of Hexagonal MoS₂ as Determined by an in-situ Peeling-to-Fracture Method, by Fang, Zheng; Li, Xing; Shi, Wenhao; Li, Zhiwei; Guo, Yufeng; Chen, Qing; Peng, Lian-Mao; Wei, Xianlong, The Journal of Physical Chemistry C 124 (2020) 23419-23425