Lian-mao Peng
Affiliations: | BeiJing Univercity |
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| Ren L, Zhou J, Pan Z, et al. (2024) Improving Carbon Nanotube-Based Radiofrequency Field-Effect Transistors by the Device Architecture and Doping Process. Acs Applied Materials & Interfaces |
| Peng LM. (2023) High-Performance Carbon Nanotube Thin-Film Transistor Technology. Acs Nano. 17: 22156-22166 |
| Lin Y, Cao Y, Lu H, et al. (2023) Improving the Performance of Aligned Carbon Nanotube-Based Transistors by Refreshing the Substrate Surface. Acs Applied Materials & Interfaces |
| Liu C, Cao Y, Wang B, et al. (2022) Complementary Transistors Based on Aligned Semiconducting Carbon Nanotube Arrays. Acs Nano |
| Liang Y, Xiao M, Wu D, et al. (2020) Wafer-Scale Uniform Carbon Nanotube Transistors for Ultrasensitive and Label-Free Detection of Disease Biomarkers. Acs Nano |
| Liu L, Han J, Xu L, et al. (2020) Aligned, high-density semiconducting carbon nanotube arrays for high-performance electronics. Science (New York, N.Y.). 368: 850-856 |
| Ma Z, Yang L, Liu L, et al. (2020) Silicon-Waveguide-Integrated Carbon Nanotube Optoelectronic System on a Single Chip. Acs Nano |
| Zhao J, Shen L, Liu F, et al. (2020) Quality metrology of carbon nanotube thin films and its application for carbon nanotube-based electronics Nano Research. 13: 1749-1755 |
| Xiao M, Lin Y, Xu L, et al. (2020) n‐Type Dirac‐Source Field‐Effect Transistors Based on a Graphene/Carbon Nanotube Heterojunction Advanced Electronic Materials. 6: 2000258 |
| Xu L, Qiu C, Peng L, et al. (2020) Transconductance Amplification in Dirac-Source Field-Effect Transistors Enabled by Graphene/Nanotube Hereojunctions Advanced Electronic Materials. 6: 1901289 |