2019/09-今，北京交通大学理学院，副教授

2015/07-2019/09，中国科学院过程工程研究所，历任助理研究员、副研究员

• 光电检测与光电传感
• 光电信息工程

• 光学工程硕士
• 光电信息工程硕士

基金委重大研究计划-集成项目 课题：面向智能终端的碳基集成技术，2022-2025，主持。

北京大学, 横向项目, KVGY23011530, 晶圆级碳纳米管薄膜均匀性验证, 2023至 2024, 主持。
华中科技大学, 横向项目, KVGY23004530, 碳纳米管晶体管制备, 2023至 2024，主持。
人才基金： 金属纳米颗粒对半导体材料的增强光学效应及其应用研究，2020-2021，主持。
国家自然科学基金“青年项目”：化学合成的金属催化剂对III-V族纳米线结构与性能的调控机制，2017-2019，主持，结题。

1、教学：

讲授本科生课程：《大学物理》、《大学物理实验》

讲授研究生课程：《高速光电子电路设计》、《非线性光线光学》

2、研究方向为新型碳基传感器及系统集成，具体包括：（1）新型碳基传感器的设计与制造；（2）碳基传感器界面电路的设计与制造；（3）碳基传感系统的设计与集成。

3、研究生培养模式：与北京大学电子系联合培养

与北京大学微纳米加工实验室、北京大学重庆碳基集成电路研究院合作，提供全套的微纳米加工与测试平台（详情咨询yingw@bjtu.edu.cn)，欢迎各位保研、考研的同学申请加入！

1. 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; Ying Wang*; Wafer-Scale Carbon Nanotubes Diodes Based on Dielectric-Induced Electrostatic Doping, ACS Nano, 2024.
2. Mengnan Chang; Jiale Qian; Zhaohui Li; Xiaohan Cheng; Ying Wang*; Ling Fan; Juexian Cao; Li Ding*; Ku-Band Mixers Based on Random-Oriented Carbon Nanotube Films, Nanomaterials, 2024,14(450): 1-11.
   
3. Wei Li#; Shaoyuan Zhou#; Xiaolu Xia; Ying Wang*; etc. Ultrahigh and Tunable Negative Photoresponse in Organic-Gated Carbon Nanotube Film Field-Effect Transistors, Advanced Functional Materials, 2023, 33(2305724): 1-10. 
4. Xiaolu Xia; Shaoyuan Zhou; Ying Wang*; Zhiyong Zhang; Emerging optoelectronic architectures in carbon nanotube photodetector technologies, Fundamental Research, 2023.
5. Zhou, S. Y.; Wang, Y.*; Deng, C. J.; Liu, P. L.; Zhang, J. B.; Zhang, Z. Y.*, Highly-sensitive SWIR photodetector using carbon nanotube thin film transistor gated by quantum dots heterojunction. Appl. Phys. Lett. 2022, 120(19), 1-4.  Featured Article
6. Li, X. X.; Deng, Z.*; Li, J.; Li, Y. F.; Guo, L. B.; Jiang, Y.; Ma, Z. G.; Wang, L.; Du, C. H.; Wang, Y.; Meng, Q. B.; Jia, H. Q.; Wang, W. X.; Liu, W. M.; Cheng, H.*, Hybrid Nano-Scale Au with ITO structure for High-Performance Near-Infrared Silicon-Based Photodetector with ultralow dark current. Photonics Research 2020,  8(11), 1662.  
7. Wang, Y.; Daun, L.; Deng, Z.*; Liao, J. H., Electrically-Transduced Gas Sensors Based on Semiconducting Metal Oxide Nanowires. Sensors 2020, 20, 6781.
8. Tong, W. G.#; Wang, Y.#*; Bian, Y. Z.; Wang, A. Q.; Han, N.*; Chen, Y. F., Sensitive Cross-Linked SnO2:NiO Networks for MEMS Compatible Ethanol Gas Sensors. Nanoscale Res. Lett. 2020, 15 (1), 12. (# These authors contribute equally to this paper)
9. Wang, Y.*; Tong, W. G.; Han, N.*, Co-sputtered Pd_SnO2_NiO heterostructured sensing films for MEMS-based ethanol sensors. Materials Letters 2020, 273, 127924.
10. Wang, Y.; Liu, C. Y.; Wang, Z.; Song, Z. W.; Zhou, X. Y.; Han, N.*; Chen, Y. F.*, Sputtered SnO₂:NiO thin films on self-assembled Au nanoparticle arrays for MEMS compatible NO₂ gas sensors. Sens. Actuator B-Chem. 2019, 278, 28-38.
11. Wang, H. #; Wang, Y. #; Gong, S. Y.; Zhou, X. Y.; Yang, Z. X.; Yang, J.*; Han, N.*; Chen, Y. F.*, Growth of Ga2O3 Nanowires via Cu-As-Ga Ternary Phase Diagram. Crystals 2019, 9(155), 1-11.
12. Song, L. F.; Luo, L. Q.; Xi, Y.; Song, J. J.; Wang, Y.; Yang, L. P.; Wang, A. Q.; Chen, Y. F.; Han, N.*; Wang, F. Y.*, Reduced Graphene Oxide-Coated Si Nanowires for Highly Sensitive and Selective Detection of Indoor Formaldehyde. Nanoscale Research Leter 2019, 14, 9.
13. Sun, J.; Wang, Y.*; Liao, J.*, Tailoring two-dimensional nanoparticle arrays into various patterns. Nanotechnology 2018, 29 (4).
14. Wang, Z.#; Wang, Y.#; Zhou, X.; Yang, Z.; Yin, Y.; Zhang, J.; Han, N.*; Ho, J. C.*; Chen, Y. F., Controlled Growth of Heterostructured Ga/GaAs Nanowires with Sharp Schottky Barrier. Cryst. Growth Des. 2018, 18 (8), 4438-4444. 
15. Wang, Y.; Zhou, X.Y.; Yang, Z. X.; Wang, F. Y.; Han, N.*; Chen, Y. F.*; Ho, J. C.*, GaAs nanowires Grown by Catalyst Epitaxy for High Performance Photovoltaics. Crystals 2018, 8(347), 1-21.
16. Zhou, X.Y.; Wang, A. Q.; Wang, Y.; Bian, L. Z.; Yang, Z. X.; Bian, Y. Z.; Gong, Y.; Wu, X.F.; Han, N.*; Chen, Y. F.*, Crystal-Defect-Dependent Gas-Sensing Mechanism of the Single ZnO Nanowire Sensors. ACS Sensor 2018, 3 (11), 2385-2393.
17. Zhou, X.Y.; Wang, Y.; Wang, Z.; Yang, L. P.; Wu, X. F.; Han, N.*; Chen, Y. F.*, Synergetic p plus n Field-Effect Transistor Circuits for ppb-Level Xylene Detection. IEEE Sens. J. 2018, 18 (9), 3875-3882.
18. Zhou, X.; Wang, J.; Wang, Z.; Bian, Y.; Wang, Y.; Han, N.*; Chen, Y.*, Transilient Response to Acetone Gas Using the Interlocking p+n Field-Effect Transistor Circuit. Sensors 2018, 18 (6), 1914. 
19. Yang, L. P.; Zhou, X. Y.; Song, L. F.; Wang, Y.; Wu, X. F.; Han, N.*; Chen, Y. F.*, Noble Metal/Tin Dioxide Hierarchical Hollow Spheres for Low Concentration Breath Methane Sensing, ACS Applied Nano Materials, 2018, doi:10.1021/acsanm.8b01529.
20. Sun, J. M.; Yin, Y. X.; Han, M. M.; Yang, Z. X.*; Lan, C. Y.; Liu, L. Z.; Wang, Y.; Han, N.*; Shen, L. F.; Wu, X. L.; Ho, J. C.*, Nonpolar-Oriented Wurtzite InP Nanowires with Electron Mobility Approaching the Theoretical Limit. ACS Nano 2018, 12 (10), 10410-10418.
21. Han, N.; Wang, Y.; Yang, Z. X.; Yip, S.; Wang, Z.; Li, D. P.; Hung, T. F.; Wang, F. Y.; Chen, Y. F.; Ho, J. C.*, Controllable III-V nanowire growth via catalyst epitaxy. J. Mater. Chem. C 2017, 5 (18), 4393-4399.  
22. Zhou, X. Y.; Wang, Y.; Wang, J. X.; Xie, Z.; Wu, X. F.; Han, N.*; Chen, Y. F.*, Amplifying the Signal of Metal Oxide Gas Sensors for Low Concentration Gas Detection. IEEE Sens. J. 2017, 17 (9), 2841-2847.
23. Xie, Z.; Han, N.*; Li, W. H.; Deng, Y. Z.; Gong, S. Y.; Wang, Y.; Wu, X. F.; Li, Y. X.; Chen, Y. F.*, Facet-dependent gas sensing properties of Cu2O crystals. Phys. Status Solidi A-Appl. Mat. 2017, 214 (6).  
24. Wang, Y.; Yang, Z. X.; Wu, X. F.; Han, N.; Liu, H. Y.; Wang, S. B.; Li, J.; Tse, W.; Yip, S.; Chen, Y. F.; Ho, J. C.*, Growth and Photovoltaic Properties of High-Quality GaAs Nanowires Prepared by the Two-Source CVD Method. Nanoscale Research Letters 2016, 11(191), 1-7.
25. Zhang, L.; Guan, C. R.; Wang, Y.; Liao, J. H.*, Highly effective and uniform SERS substrates fabricated by etching multi-layered gold nanoparticle arrays. Nanoscale 2016, 8 (11), 5928-5937.  
26. Han, N.; Yang, Z. X.; Shen, L. F.; Lin, H.; Wang, Y.; Pun, E. Y. B.; Chen, Y. F.; Ho, J. C.*, Design and fabrication of 1-D semiconductor nanomaterials for high-performance photovoltaics. Science Bulletin 2016, 61 (5), 357-367.
27. Guan, C. R.; Zhang, L.; Liu, S. H.; Wang, Y.; Huang, W. H.; Zhang, C. Y.; Liao, J. H.*, Fabrication of Freestanding Nanoparticle Membranes over Wells. Langmuir 2015, 31(12), 3738-3744.  
28. Wang, Y.; Duan, C.; Peng, L. M.*; Liao, J. H.*, Dimensionality-dependent charge transport in close-packed nanoparticle arrays: from 2D to 3D. Sci Rep 2014, 4(7565), 1-6.
29. Wang, Y.; Guan, C. R.; Sun, J. L.; Peng, L. M.*; Liao, J. H.*, Transition of temperature coefficient of conductance in weakly coupled gold nanoparticle arrays. Appl. Phys. Lett. 2014, 105 (233116), 1-6.  
30. Duan, C.; Wang, Y.; Sun, J. L.; Guan, C. R.; Grunder, S.; Mayor, M.; Peng, L. M.; Liao, J. H.*, Controllability of the Coulomb charging energy in close-packed nanoparticle arrays. Nanoscale 2013, 5 (21), 10258-10266.  
31. Liao, J. H.*; Li, X. X.; Wang, Y.; Zhang, C. Y.; Sun, J. L.; Duan, C.; Chen, Q.; Peng, L. M.*, Patterned Close-Packed Nanoparticle Arrays with Controllable Dimensions and Precise Locations. Small 2012, 8 (7), 991-996.  
32. Liao, J. H.*; Zhou, Y. Z.; Huang, C. L.; Wang, Y.; Peng, L. M.*, Fabrication, Transfer, and Transport Properties of Monolayered Freestanding Nanoparticle Sheets. Small 2011, 7(5), 583-587. 

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