1.主持项目

2023.1-2026.12，国家自然科学基金-青年基金（30万）：基于非线性模态局部化加速度传感器的自适应混沌控制研究，主持

2023.01-今， 内蒙古大学高层次人才引进项目（学术骨干）一项（150万）：基于高性能加速度传感器的非线性动力学分析及自适应控制研究，主持

2. 已发表论文

（2024年）

1. Lyu, M, Zhi, X, Yan, N, Sun, R. Experimental Investigation of Mode Localization’s Bifurcation Topology Transfer in Electrostatically Coupled Tuning Fork Resonators, Sensors-Basel. 24 (2024).(SCI)

2. Lyu, M, Zhao, J, Kacem, N, Wu, R, Zhi, X, Sun, R. Experimental Investigation of Nonlinear Modulation Characteristics of Mode Localization in Electrostatic Coupled Resonators, J Phys Conf Ser. 2740 (2024).(EI)

3.  Lyu, M, Zhao, J, Kacem, N, Wu, R, Sun, R. Experimental characterization of a mode-localized acceleration sensor integrating electrostatically coupled resonators, J Appl Phys. 135 (2024).（SCI）

（2023年入职前）

1. lyu ming, j z, najib kacem, bin tang, pengbo liu, jiahao song, heng zhong, yu huang. computational investigation of high-order mode localization in electrostatically coupled microbeams with distributed electrodes for high sensitivity mass sensing[j].mechanical systems and signal processing, 2021, 158: 107781.

2. lyu, ming, zhao, j, kacem, n, tang, b, liu, p, song, j, et al. design and modeling of a mems accelerometer based on coupled mode-localized nonlinear resonators under electrostatic actuation,commun nonlinear sci numer simul. 103 (2021). 

3. lyu ming, zhao j, kacem n, et al. exploiting nonlinearity to enhance the sensitivity of mode-localized mass sensor based on electrostatically coupled mems resonators[j].international journal of non-linear mechanics, 2020, 121: 103455.

4. zhao j,lyu ming, wang h, et al. piezoelectric actuated nonlinear energy sink with tunable attenuation efficiency[j].journal of applied mechanics-asme, 2020, 87(2): 1-9. 

5.lyu ming,Jian Zhao, Kacem Najib, et al. Nonlinearity cancellation in a mode-localized mass sensor based on electrostatically coupled resonators under primary and superharmonic resonances. [J]. Physica Scripta.

6. lyu ming, jian zhao, jiahao song, najib kacem, et al. modal localization of nonlinear electrostatic weak coupling mems resonator[c]. 中国微米纳米技术学会第二十一届学术年会暨第十届国际会议

7. lyu ming, jian zhao, pengbo liu, et al. ultrasensitive mass sensing utilizing high-order mode localization of clamped-clamped microbeams with distributed electrodes [c]. the 16th ieee international conference on nano/micro engineered&molecular systems(ieee nems2021)

8. lyu ming, jian zhao, n. kacem, et al. a novel dual-mass accelerometer exploiting mode localization in electrostatically coupled resonators[c]. proceedings of the asme 2021 international design engineering technical conferences and computers and information in engineering conference.

9. lyu ming, jian zhao, n. kacem, et al.hysteresis suppression of coupled resonators under simultaneous parmary and superharmanic excitation. [c]. proceedings of the asme 2022 international design engineering technical conferences and computers and information in engineering conference.

10. jiahao song;ming lyu; najib kacem;exploiting bifurcation behaviors in parametrically excited mode-localized resonators for mass sensing.[J]..journal of applied mechanics-asme, 2023

3. 已授权国家发明专利

11.一种基于模态局部化效应的高阶模态微质量传感器。吕明，赵剑，刘蓬勃，国家发明专利，已授权，2020.3.17，申请号：cn202010186923.6

12.一种基于模态局部化效应的可调微质量传感器。赵剑，吕明，刘蓬勃，国家发明专利，已授权，2022.2.25，专利号：zl 201910853942.7

13.一种基于模态局部化效应的可调加速度传感器。吕明;赵剑;刘蓬勃;钟恒;宋嘉濠;孙荣健;郑显泽;唐英海，国家发明专利，已授权，

2022.2.25，专利号：zl 202011460351.2

14.一种不同阶模态耦合的模态局部化微质量传感器。赵剑;宋嘉濠;吕明;刘蓬勃;钟恒;孙荣健;郑显泽;唐英海，国家发明专利，已授权，申请号：cn202011463988.7

15.一种弱耦合谐振器。赵剑;钟恒;吕明;刘蓬勃;宋嘉濠;孙荣健;郑显泽;唐英海，国家发明专利，审查中，申请号：cn202011463918.1

16.一种定频压电微质量传感器的测量电路与装置，刘蓬勃，赵剑，吕明，国家发明专利，审查中，申请号：cn202010296618.2