Google Scholar (Prof. Wang)
Google Scholar (Prof. Xia)
Journal Publications
Since 2020
38. Yachun Liang*, Luming Wang*, Song Wu*, Jiaqi Wu*, Jiankai Zhu, Jiaze Qin, Xiulian Fan, Zejuan Zhang, Bo Xu, Chenyin Jiao, Shenghai Pei, Yu Zhou, Juan Xia, and Zenghui Wang (*equally contributing authors), “Tunable anisotropy in wide-bandgap 2D crystal CaNb2O6 utilizing nanomechanical resonators”, International Journal of Extreme Manufacturing 7, accepted (2025).
https://doi.org/10.1088/2631-7990/adba1d
37. Yuze Meng and Zenghui Wang, “Isolating and Identification of Layer Dependence of Correlated States in MoSe2/WS2 Moiré Heterojunction2”, SCIENCE CHINA Physics, Mechanics & Astronomy 67, 288211 (2025).
https://doi.org/10.1007/s11433-024-2376-9
36. Bo Xu*, Zejuan Zhang*, Jiaze Qin, Jiaqi Wu, Luming Wang, Jiankai Zhu, Chenyin Jiao, Wanli Zhang, Juan Xia, and Zenghui Wang (*equally contributing authors), “Dynamic tuning of terahertz atomic lattice vibration via cross-scale mode coupling to nanomechanical resonance in WSe2 membranes”, Microsystems & Nanoengineering 11, 18 (2025).
https://doi.org/10.1038/s41378-024-00827-w
35. Qing Dai1, Fengqi Song, Caofeng Pan, Kaihui Liu, Guangbao Yao, Hao Zheng, Yuanzhi Tan, Jinbo Pan, Lingjie Du, Pu Huang, Zenghui Wang, Hui Chen, Chendong Zhang, Fucong Fei, Hongxing Xu, and Yafei Dai, “The fundamental physical science of atom manufacturing”, Chinese Science Bulletin 69, 2777 (2024).
https://doi.org/10.1360/TB-2024-0170
34. Cheng Tu, Yi-Ming Pan, Zenghui Wang, and Xiao-Sheng Zhang, “A bent-TBTF resonant MEMS accelerometer using auxiliary supporting beams”, IEEE Electron Device Letters 45, 2177 (2024).
https://doi.org/10.1109/LED.2024.3453324
33. Chenyin Jiao*, Shenghai Pei*, Zejuan Zhang*, Cheng Li, Jiankai Zhu, Jiaze Qin, Maodi Zhang, Ting Wn, Yu Zhou, Zenghui Wang, and Juan Xia (*equally contributing authors), “Exploration towards a new stacking-pressure phase diagram in bilayer AA- and AB-MoS2”, Applied Physics Reviews 11, 031417 (2024).
https://doi.org/10.1063/5.0202832
32. Luming Wang*, Song Wu*, Zejuan Zhang*, Jiankai Zhu*, Luwei Zou, Bo Xu, Jiaqi Wu, Junzhi Zhu, Fei Xiao, Chenyin Jiao, Shenghai Pei, Jiaze Qin, Yu Zhou, Juan Xia, and Zenghui Wang (*equally contributing authors), “Investigating thermal properties of 2D non-layered material using a NEMS-based 2-DOF approach towards ultrahigh-performance bolometer”, National Science Review 11, nwae248 (2024).
https://doi.org/10.1093/nsr/nwae248
31. Shenghai Pei*, Zejuan Zhang*, Chenyin Jiao*, Zhenyu Wang, Jian Lv, Yujun Zhang, Mingyuan Huang, Yanchao Wang, Zenghui Wang, and Juan Xia (*equally contributing authors), “Quantitative regulation of electron–phonon coupling”, Reports on Progress in Physics 87, 078001 (2024).
https://doi.org/10.1088/1361-6633/ad4fbd
30. Jie Tang*, Ziluo Su*, Shuang Cai*, Yalan Wang*, Luming Wang, Jiaqi Wu, Jiaze Qin, Jiankai Zhu, Bo Xu, Juan Xia, and Zenghui Wang (*equally contributing authors), “HF-VHF NEMS Resonators Enabled by 2D Semiconductor ReSe2”, SCIENCE CHINA Information Sciences 67, 209401 (2024).
https://doi.org/10.1007/s11432-024-4047-2
29. Junzhi Zhu*, Song Wu*, Luming Wang*, Jiaqi Wu*, Jiankai Zhu, Luwei Zou, Fei Xiao, Ziluo Su, Chenyin Jiao, Shenghai Pei, Zejuan Zhang, Jiaze Qin, Bo Xu, Yu Zhou, Juan Xia, and Zenghui Wang (*equally contributing authors), “Broad-range, high-linearity, and fast-response pressure sensing enabled by nanomechanical resonators based on 2D non-layered material: β-In2S3”, InfoMat 6, e12553 (2024).
https://doi.org/10.1002/inf2.12553
28. Zejuan Zhang*, Chenyin Jiao*, Shenghai Pei*, Xilong Zhou, Jiaze Qin, Wanli Zhang, Yu Zhou, Zenghui Wang, and Juan Xia (*equally contributing authors), “Pressure-triggered stacking dependence of interlayer coupling in bilayer WS2”, SCIENCE CHINA Physics, Mechanics & Astronomy 67, 288211 (2024).
https://doi.org/10.1007/s11433-024-2376-9
27. Jiankai Zhu, Bo Xu, and Zenghui Wang, “The sound of music at the nanoscale——exploring the nanoscale world with nanoelectromechanical systems based on low dimensional nanomaterials”, Physics 53, 89 (2024).
http://doi.org/10.7693/wl20240203
26. Chenyin Jiao*, Shenghai Pei*, Song Wu, Zenghui Wang, and Juan Xia (*equally contributing authors), “Tuning and exploiting interlayer coupling in two-dimensional van der Waals heterostructures”, Reports on Progress in Physics 86, 114503 (2023).
https://doi.org/10.1088/1361-6633/acfe89
25. Luming Wang*, Jianglong Chen*, Song Wu*, Fei Xiao*, Bo Xu, Qingyang Deng, Yachun Liang, Zejuan Zhang, Pengcheng Zhang, Rui Yang, Juan Xia, and Zenghui Wang (*equally contributing authors), “Identifying, quantifying, and mitigating extraneous contact effect in dynamic characterization of flexible devices”, Applied Physics Reviews 10, 031422 (2023).
https://doi.org/10.1063/5.0160238
24. Jiankai Zhu*, Luming Wang*, Jiaqi Wu*, Yachun Liang, Fei Xiao, Bo Xu, Zejuan Zhang, Xiulian Fan, Yu Zhou, Juan Xia, and Zenghui Wang (*equally contributing authors), “Achieving fm/√Hz displacement sensitivity with laser interferometry in 2D nanomechanical resonators: pathways towards quantum-noise-limited measurement at room temperature”, Chinese Physics Letters (Express Letters) 40, 038102 (2023).
https://doi.org/10.1088/0256-307X/40/3/038102
23. Ting Wen, Maodi Zhang, Jing Li, Chenyin Jiao, Shenghai Pei, Zenghui Wang, and Juan Xia, “Orientation-polarization dependence of pressure-induced Raman anomalies in anisotropic 2D ReS2”, Nanoscale Horizons 8, 516 (2023).
https://doi.org/10.1039/d2nh00584k
22. Luming Wang*, Pengcheng Zhang*, Zuheng Liu, Zenghui Wang, and Rui Yang (*equally contributing authors), “On-chip mechanical computing: status, challenges, and opportunities”, Chip 2, 100038 (2023).
https://doi.org/10.1016/j.chip.2023.100038
21. Bo Xu*, Jiankai Zhu*, Fei Xiao*, Chenyin Jiao*, Yachun Liang, Ting Wen, Song Wu, Zejuan Zhang, Lin Lin, Shenghai Pei, Hao Jia, Ying Chen, Ziming Ren, Xueyong Wei, Wen Huang, Juan Xia, and Zenghui Wang (*equally contributing authors), “Identifying, resolving, and quantifying anisotropy in ReS2 nanomechanical resonators”, Small 19, 2300631 (2023).
https://doi.org/10.1002/smll.202300631
20. Bo Xu*, Jiankai Zhu*, Fei Xiao*, Na Liu*, Yachun Liang, Chenyin Jiao, Jing Li, Qingyang Deng, Song Wu, Ting Wen, Shenghai Pei, Hujie Wan, Xu Xiao, Juan Xia, and Zenghui Wang (*equally contributing authors), “Electrically tunable MXene nanomechanical resonators vibrating at very high frequencies”, ACS Nano 16, 20229 (2022).
https://doi.org/10.1021/acsnano.2c05742
19. Ting Wen, Jing Li, Maodi Zhang, Chenyin Jiao, Shenghai Pei, Zenghui Wang, and Juan Xia, “Discerning the vibrational nature of ReS2 Raman modes using solid-angle-resolved Raman spectroscopy”, ACS Photonics 9, 3557 (2022).
https://doi.org/10.1021/acsphotonics.2c00865
18. Bo Xu*, Pengcheng Zhang*, Jiankai Zhu*, Zuheng Liu*, Alexander Eichler, Xu-Qian Zheng, Jaesung Lee, Aneesh Dash, Swapnil More, Song Wu, Yanan Wang, Hao Jia, Akshay Naik, Adrian Bachtold, Rui Yang, Philip X.-L. Feng, and Zenghui Wang (*equally contributing authors), “Nanomechanical resonators: toward atomic scale”, ACS Nano 16, 15545 (2022).
https://doi.org/10.1021/acsnano.2c01673
17. Yuxin Hou, Lei Wang, Ran Sun, Yuanao Zhang, Mengxi Gu, Yuanhao Zhu, Yubo Tong, Xunyu Liu, Zhixun Wang, Juan Xia, Yougen Hu, Lei Wei, Chunlei Yang, and Ming Chen, “Crack-across-pore enabled high-performance flexible pressure sensors for deep neural network enhanced sensing and human action recognition”, ACS Nano 16, 8358 (2022).
https://doi.org/10.1021/acsnano.2c02609
16. Dongxue Chen*, Zhen Lian*, Xiong Huang*, Ying Su*, Mina Rashetnia, Li Yan, Mark Blei, Takashi Taniguchi, Kenji Watanabe, Sefaattin Tongay, Zenghui Wang, Chuanwei Zhang, Yong-Tao Cui, and Su-Fei Shi (*equally contributing authors), “Tuning moiré excitons and correlated electronic states through layer degree of freedom”, Nature Communications 13, 4810 (2022).
https://doi.org/10.1038/s41467-022-32493-9
15. Dongxue Chen*, Zhen Lian*, Xiong Huang*, Ying Su*, Mina Rashetnia, Lei Ma, Li Yan, Mark Blei, Li Xiang, Takashi Taniguchi, Kenji Watanabe, Sefaattin Tongay, Dmitry Smirnov, Zenghui Wang, Chuanwei Zhang, Yong-Tao Cui, and Su-Fei Shi (*equally contributing authors), “Excitonic insulator in a heterojunction moiré superlattice”, Nature Physics 18, 1171 (2022).
https://doi.org/10.1038/s41567-022-01703-y
14. Shenghai Pei, Zenghui Wang, and Juan Xia, “Interlayer coupling: an additional degree of freedom in two-dimensional materials”, ACS Nano 16, 11498 (2022).
https://doi.org/10.1021/acsnano.1c11498
13. Jiankai Zhu*, Bo Xu*, Fei Xiao*, Yachun Liang*, Chenyin Jiao, Jing Li, Qingyang Deng, Song Wu, Ting Wen, Shenghai Pei, Juan Xia, and Zenghui Wang (*equally contributing authors), “Frequency scaling, elastic transition, and broad-range frequency tuning in WSe2 nanomechanical resonators”, Nano Letters 22, 5107 (2022).
https://doi.org/10.1021/acs.nanolett.2c00494
12. Tongqiao Miao, Xin Zhou, Xuezhong Wu, Qingsong Li, Zhanqiang Hou, Xiaoping Hu, Zenghui Wang, and Dingbang Xiao, “Nonlinearity-mediated digitization and amplification in electromechanical phonon-cavity systems”, Nature Communications 13, 2352 (2022).
https://doi.org/10.1038/s41467-022-29995-x
11. Ting Wen, Jing Li, Qingyang Deng, Chenyin Jiao, Maodi Zhang, Song Wu, Lin Lin, Wen Huang, Juan Xia, and Zenghui Wang, “Analyzing anisotropy in 2D rhenium disulfide using dichromatic polarized reflectance”, Small 18, 2108028 (2022).
https://doi.org/10.1002/smll.202108028
10. Zenghui Wang, Bo Xu, Shenghai Pei, Jiankai Zhu, Ting Wen, Chenyin Jiao, Jing Li, Maodi Zhang, and Juan Xia, “Recent progress in 2D van der Waals heterostructures: fabrication, properties, and applications”, SCIENCE CHINA Information Sciences 65, 211401 (2022).
https://doi.org/10.1007/s11432-021-3432-6
9. Shenghai Pei, Zenghui Wang, and Juan Xia, “High pressure studies of 2D materials and heterostructures: A review”, Materials and Design 213, 110363 (2022).
https://doi.org/10.1016/j.matdes.2021.110363
8. Jiankai Zhu*, Pengcheng Zhang*, Rui Yang, and Zenghui Wang (*equally contributing authors), “Analyzing electrostatic modulation of signal transduction efficiency in MoS2 nanoelectromechanical resonators with interferometric readout”, SCIENCE CHINA Information Sciences 65, 122409 (2022).
https://doi.org/10.1007/s11432-021-3297-x
7. Zenghui Wang*, Rui Yang*, and Philip X.-L. Feng (*equally contributing authors), “Thermal Hysteresis Controlled Reconfigurable MoS2 Nanomechanical Resonators”, Nanoscale 13, 18089 (2021).
https://doi.org/10.1039/D1NR03286K
6. Yueguang Lyu, Yaxin Zhang, Yang Liu, Weifang Chen, Xilin Zhang, Wenyuan Xu, Changju Wu, Lan Wang, Hongxin Zeng, Xuan Sheng, Rui Yang, Zenghui Wang, Kun Kuang, Wu Fei, “Analysis of Potential Disruptive Technologies in the Electronics and Information Field Towards the Intelligent Society”, Engineering 7, 1051 (2021).
https://doi.org/10.1016/j.eng.2021.05.004
5. Yachun Liang, Jiankai Zhu, Fei Xiao, Bo Xu, Ting Wen, Song Wu, Jing Li, Juan Xia, and Zenghui Wang, “Two-Dimensional Inverters Based on MoS2 -hBN-Graphene Heterostructures Enabled by a Layer-by-Layer Dry-Transfer Method”, IEEE Journal of the Electron Devices Society 9, 1269 (2021).
https://doi.org/10.1109/JEDS.2021.3097995
4. Jiawei Fang, Pengcheng Zhang, Rui Yang, and Zenghui Wang, “A Cantilever-Based Resonator for Reconfigurable Nanomechanical Computing”, Journal of Micromechanics and Microengineering 31, 124003 (2021).
https://doi.org/10.1088/1361-6439/ac3466
3. Zenghui Wang, Jiawei Fang, Pengcheng Zhang, and Rui Yang , “Nanomechanics: emerging opportunities for future computing”, SCIENCE CHINA Information Sciences 64, 206401 (2021).
https://doi.org/10.1007/s11432-020-3241-9
2. Shengnan Miao*, Tianmeng Wang*, Xiong Huang*, Dongxue Chen*, Zhen Lian, Chong Wang, Mark Blei, Takashi Taniguchi, Kenji Watanabe, Sefaattin Tongay, Zenghui Wang, Di Xiao, Yong-Tao Cui and Su-Fei Shi (*equally contributing authors), “Strong interaction between interlayer excitons and correlated electrons in WSe2/WS2 moiré superlattice”, Nature Communications 12, 3608 (2021).
https://doi.org/10.1038/s41467-021-23732-6
1. Juan Xia, Jiaxu Yan, Zenghui Wang, Yongmin He, Yongji Gong, Weiqiang Chen, Tze Chien Sum, Zheng Liu, Pulickel M. Ajayan, and Zexiang Shen, “Strong Coupling and Pressure Engineering in WSe2 -MoSe2 Heterobilayers”, Nature Physics 17, 92 (2021).
https://doi.org/10.1038/s41567-020-1005-7
Prior to 2020
24. Arnob Islam, Wei Du, Vida Pashaei, Hao Jia, Zenghui Wang, Jaesung Lee, Guo Jun Ye, Xian Hui Chen, and Philip X.-L. Feng, “Discerning Black Phosphorus Crystal Orientation and Anisotropy by Polarized Reflectance Measurement”, ACS Applied Materials and Interfaces 10, 25629 (2018).
23. Jaesung Lee*, Zenghui Wang*, Keliang He, Rui Yang, Jie Shan, and Philip X.-L. Feng (*equally contributing authors), “Electrically Tunable Single- and Few-Layer MoS2 Nanoelectromechanical Systems with Broad Dynamic Range”, Science Advances 4, eaao6653 (2018).
22. Zenghui Wang*, Hao Jia*, Xu-Qian Zheng, Rui Yang, Guojun Ye, Xianhui Chen, and Philip X.-L. Feng (*equally contributing authors), “Resolving Mechanical Anisotropy in Black Phosphorus Crystal via Nanomechanical Multimode Resonance Spectromicroscopy”, Nano Letters 16, 5394-5400 (2016).
21. Zenghui Wang and Philip X.-L. Feng, “Interferometric Motion Detection in Atomic Layer 2D Nanostructures: Visualizing Signal Transduction Efficiency and Optimization Pathways”, Scientific Reports 6, 28923 (2016).
20. Jaesung Lee, Fan Ye, Zenghui Wang, Rui Yang, Jin Hu, Zhiqiang Mao, Jiang Wei, and Philip X.-L. Feng, “Single- and Few-Layer WTe2 and Their Suspended Nanostructures: Raman Signatures and Nanomechanical Resonances”, Nanoscale 8, 7854 (2016).
19. Zenghui Wang, Arnob Islam, Rui Yang, Xuqian Zheng, and Philip X.-L. Feng, “Environmental, Thermal, and Electrical Susceptibility of Black Phosphorus Field Effect Transistors”, Journal of Vacuum Science & Technology B 33, 052202 (2015).
18. Zenghui Wang and Philip X.-L. Feng, “Design of Black Phosphorus 2D Nanomechanical Resonators by Exploiting the Intrinsic Mechanical Anisotropy”, 2D Materials 2, 021001 (2015).
17. Zenghui Wang, Hao Jia, Xuqian Zheng, Rui Yang, Zefang Wang, G. J. Ye, X. H. Chen, Jie Shan, and Philip X.-L. Feng, “Black Phosphorus Nanoelectromechanical Resonators Vibrating at Very High Frequencies”, Nanoscale 7, 877 (2015).
16. Zenghui Wang*, Jaesung Lee*, and Philip X.-L. Feng (*equally contributing authors), “Spatial Mapping of Multi-Mode Brownian Vibrations in High Frequency Silicon Carbide Microdisk Resonators”, Nature Communications 5, 5158 (2014).
15. Rui Yang, Xuqian Zheng, Zenghui Wang, Christopher J. Miller, and Philip X.-L. Feng, “Multilayer MoS2 Transistors Enabled by a Facile Dry-Transfer Technique and Thermal Annealing”, Journal of Vacuum Science & Technology B 32, 061203 (2014).
14. Rui Yang, Zenghui Wang, and Philip X.-L. Feng, “Electrical Breakdown of Multilayer MoS2 Field-Effect Transistors with Thickness-Dependent Mobility”, Nanoscale 6, 12383 (2014).
13. Jaesung Lee, Zenghui Wang, Keliang He, Jie Shan, and Philip X.-L. Feng, “Air Damping of Atomically Thin MoS2 Nanomechanical Resonators”, Applied Physics Letters 105, 023104 (2014).
12. Zenghui Wang and Philip X.-L. Feng, “Dynamic Range of Atomically Thin Vibrating Nanomechanical Resonators”, Applied Physics Letters 104, 103109 (2014).
11. Rui Yang, Zenghui Wang, Jaesung Lee, Kalyan Ladhane, Darrin J. Young, and Philip X.-L. Feng, “6H-SiC Microdisk Torsional Resonators in a “Smart-Cut” Technology”, Applied Physics Letters 104, 091906 (2014).
10. Zenghui Wang, Jaesung Lee, Keliang He, Jie Shan, and Philip X.-L. Feng, “Embracing Structural Nonidealities and Asymmetries in Two-Dimensional Nanomechanical Resonators", Scientific Reports 4, 3919 (2014).
9. Matt W. Graham, Su-Fei Shi, Zenghui Wang, Daniel C. Ralph, Jiwoong Park and Paul L. McEuen, “Transient Absorption and Photocurrent Microscopy Show Hot Electron Supercollisions Describe the Rate-Limiting Relaxation Step in Graphene”, Nano Letters 13, 5497 (2013).
8. Jaesung Lee*, Zenghui Wang*, Keliang He, Jie Shan, and Philip X.-L. Feng (*equally contributing authors), “High Frequency MoS2 Nanomechanical Resonators”, ACS Nano 7, 6086–6091 (2013).
7. Lihong H. Herman, Cheol-Joo Kim, Zenghui Wang, Moon-Ho Jo, and Jiwoong Park, “Depolarization Effect in Optical Absorption Measurements of One- and Two-Dimensional Nanostructures”, Applied Physics Letters 101, 123102 (2012).
6. Hao-Chun Lee, Oscar E. Vilches, Zenghui Wang, Erik Fredrickson, Peter Morse, Richard Roy, Boris Dzyubenko and David H. Cobden, “Kr and 4He Adsorption on Individual Suspended Single-Walled Carbon Nanotubes”, Journal of Low Temperature Physics 169, 338 (2012).
5. Robin W. Havener, Sang-Yong Ju, Lola Brown, Zenghui Wang, Michal Wojcik, Carlos S. Ruiz-Vargas, and Jiwoong Park, “High-Throughput Graphene Imaging on Arbitrary Substrates with Widefield Raman Spectroscopy”, ACS Nano 6, 373 (2012).
4. Zenghui Wang, Jiang Wei, Peter Morse, J. Gregory Dash, Oscar E. Vilches, and David H. Cobden, “Phase Transitions of Adsorbed Atoms on the Surface of a Carbon Nanotube”, Science 327, 552 (2010).
3. Jiang Wei, Zenghui Wang, Wei Chen, and David H. Cobden, “New Aspects of the Metal-Insulator Transition in Single-Domain Vanadium Dioxide Nanobeams”, Nature Nanotechnology 4, 420 (2009).
2. Benjamin J. Wiley, Zenghui Wang, Jiang Wei, Yadong Yin, David H. Cobden, and Younan Xia, “Synthesis and Electrical Characterization of Silver Nanobeams”, Nano Letters 6, 2273, (2006).
1. Jiang Wei, Michael Shimogawa, Zenghui Wang, Iuliana Radu, Robert Dormaier, and David H. Cobden, “Magnetic Field Asymmetry of Nonlinear Transport in Carbon Nanotubes”, Physical Review Letters 95, 256601 (2005).
Invited Book Chapters
1. Zenghui Wang, “Carbon Nanotube NEMS”, in Encyclopedia of Nanotechnology, Bharat Bhushan (Ed.), Springer, 2016. In press.
Patents
2. Zenghui Wang, Ran Wei, Peng Wang Wen H. Ko, and Philip X.-L. Feng, “Self-Powering, Easy-to-Deploy, Low-Cost Multiphysical Sensors for Smart Building and Environment Monitoring”, U.S. Provisional Patent Application Number 62/090085.
1. Philip X.-L. Feng, Zenghui Wang, and Jaesung Lee, “Real-Time Monitoring of Methane Leak by Ultrasensitive SiC MEMS Gas Analyzer Networks with Wireless Communication”, U.S. Provisional Patent Application Number 62/101642.
Peer-Reviewed Conference Publications
19. Hao Jia, Zenghui Wang, and Philip X.-L. Feng, “Electrically Tunable Black Phosphorus Nanomechanical Resonators With Intrinsic Acoustic Anisotropy”, Digest of Technical Papers of the 17th Solid-State Sensors, Actuators & Microsystems Workshop (Hilton Head’16), Accepted (2016).
18. Zenghui Wang, Rui Yang, and Philip X.-L. Feng, “Memory Operation via Thermal Modulation of MoS2 Nanomechanical Resonators”, Proceedings of 2016 IEEE International Frequency Control Symposium,Accepted (2016).
17. Peng Wang, Zenghui Wang, Xu-Qian Zheng, Benjamin J. Brucker, and Philip X.-L. Feng, “A Self-Powering Wireless Temperature Sensor Node with Low-Power Application-Specific Integrated Circuit (ASIC) and Vibration Energy Harvester”, Proceedings of 2016 IEEE International Symposium on Circuits & Systems (ISCAS 2016), Accepted (2016).
16. Rui Yang, Zenghui Wang, and Philip X.-L. Feng, “All-Electrical Readout of Atomically Thin MoS2 Nanoelectromechanical Resonators in the VHF Band”, Proceedings of the 29th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2016), in press (2016). Also presented as Oral Presentation.
15. Zenghui Wang, Peng Wang, Jaesung Lee, C.-C. Liu, and Philip X.-L. Feng, “Towards Real-Time Methane (CH4) Capture and Detection by Nanoparticle-Enhanced Silicon Carbide Trampoline Oscillators”, Technical Digest of the 18th International Conference on Solid-State Sensors, Actuators and Microsystems (Transducers’15), 432-435, Anchorage, AK, June 21-25 (2015). Also presented as Oral Presentation.
14. Zenghui Wang, Rui Yang, and Philip X.-L. Feng, “Observation of Strong Temperature Hysteresis in Molybdenum Disulfide (MoS2) Nanomechanical Resonators”, Proceedings of 2015 Joint Conference of the IEEE International Frequency Control Symposium & European Frequency and Time Forum, 783-786, Denver, CO, April 12-16 (2015). Also presented as Oral Presentation.
13. Rui Yang, Zenghui Wang, and Philip X.-L. Feng, “Calibrating Temperature Coefficient of Frequency (TCf) and Thermal Expansion Coefficient (a) of MoS2 Nanomechanical Resonators”, Proceedings of 2015 Joint Conference of the IEEE International Frequency Control Symposium & European Frequency and Time Forum, 198-201, Denver, CO, April 12-16 (2015). Also presented as Poster.
12. Peng Wang, Robert Gray, Zenghui Wang, and Philip X.-L. Feng, “A Wireless Temperature Sensor Powered by a Piezoelectric Resonant Energy Harvesting System”, Proceedings of 2015 Joint Conference of the IEEE International Frequency Control Symposium & European Frequency and Time Forum, 316-319, Denver, CO, April 12-16 (2015). Also presented as Oral Presentation.
11. Rui Yang, Zenghui Wang, Peng Wang, R Lujan J, Tse Nga Ng, and Philip X.-L. Feng, “Two-Dimensional MoS2 Nanomechanical Resonators Freely Suspended on Microtrenches on Flexible Substrate”, Proceedings of the 28th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2015), 877-880, Estoril, Portugal, January 18-22 (2015). Also presented as Poster.
10. Philip X.-L. Feng, Zenghui Wang, Jaesung Lee, Rui Yang, Xuqian Zheng, Keliang He, and Jie Shan, “Two-Dimensional Nanoelectromechanical Systems (2D NEMS) via Atomically-Thin Semiconducting Crystals Vibrating at Radio Frequencies”, Invited Paper in Technical Digest of the International Electron Devices Meeting (IEDM’2014), 8.1.1-8.1.4, San Francisco, CA, December 15-17 (2014). Also presented as Invited Talk.
9. Hao Jia, Jaesung Lee, Zenghui Wang, and Philip X.-L. Feng, “High-Frequency SiC Microdisk Resonators Operating in Water with Responses to H2O2 and NH4OH”, Proceedings of the IEEE International Frequency Control Symposium (IFCS'14), 24-27, Taipei, Taiwan, May 19-22 (2014). Also presented as Oral Presentation.
8. Jaesung Lee, Cheng-Syun Li, Zenghui Wang, Ming-Huang Li, Chi-Hang Chin, Sheng-Shian Li, and Philip X.-L. Feng, “Exploring Parametric Resonance Effects in Bulk-Mode CMOS-MEMS Resonators”, Proceedings of the IEEE International Frequency Control Symposium (IFCS'14), 329-331, Taipei, Taiwan, May 19-22 (2014). Also presented as Oral Presentation.
7. Rui Yang, Zenghui Wang, Jaesung Lee, Kalyan Ladhane, Darrin J. Young, and Philip X.-L. Feng, “Temperature Dependence of Torsional and Flexural Modes in 6H-SiC Microdisk Resonators”, Proceedings of the IEEE International Frequency Control Symposium (IFCS'14), 618-620, Taipei, Taiwan, May 19-22 (2014). Also presented as Oral Presentation.
6. Tina He, Jaesung Lee, Zenghui Wang, and Philip X.-L. Feng, “Interrogating Contact-Mode Silicon Carbide (SiC) Nanoelectromechanical Switching Dynamics by Ultrasensitive Interferometry”, Proceedings of the 27th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2014), 1079-1082, San Francisco, CA, January 26-30 (2014). Also presented as Poster.
5. Rui Yang, Kalyan Ladhane, Zenghui Wang, Jaesung Lee, Darrin J. Young ,and Philip X.-L. Feng, “Smart-Cut 6H-Silicon Carbide (SiC) Microdisk Torsional Resonators with Sensitive Photon Radiation Detection”, Proceedings of the 27th IEEE International Conference on Micro Electro Mechanical Systems (MEMS 2014), 793-796, San Francisco, CA, January 26-30 (2014). Also presented as Poster.
4. Rui Yang, Jaesung Lee, Zenghui Wang, and Philip X.-L. Feng, “Multimode Characteristics in Mechanically-Coupled Silicon Carbide (SiC) Nanowire Array Resonators”, Proceedings of the IEEE International Frequency Control Symposium (IFCS’13) at the Joint UFFC, EFTF and PFM Symposia, 145-148, Prague, Czech Republic, May 19-22 (2013). Also presented as Poster.
3. Jaesung Lee, Zenghui Wang, and Philip X.-L. Feng, “Frequency Scaling of Molybdenum Disulfide (MoS2) Two-Dimensional (2D) Nanomechanical Resonators”, Proceedings of the IEEE International Frequency Control Symposium (IFCS’13) at the Joint UFFC, EFTF and PFM Symposia, 58-61, Prague, Czech Republic, May 19-22 (2013). Also presented as Oral Presentation.
2. Zenghui Wang, Jaesung Lee, and Philip X.-L. Feng, “Exploiting Irregular MoS2 Nanostructures for Very High Frequency (VHF) Nanomechanical Resonators with Mode Shape Engineering and Frequency Control”, Proceedings of the IEEE International Frequency Control Symposium (IFCS’13) at the Joint UFFC, EFTF and PFM Symposia, 551-554, Prague, Czech Republic, May 19-22 (2013). Also presented as Oral Presentation.
1. Zenghui Wang, “Nanoscale Resonant Sensors with 1D Carbon Nanostructures: a Review of Carbon Nanotube Based NEMS Devices”, Invited Review in Proceedings of the IEEE International Frequency Control Symposium (IFCS’13) at the Joint UFFC, EFTF and PFM Symposia, 48-53, Prague, Czech Republic, May 19-22 (2013). Also presented as Invited Talk.