论文情况：

[1] Wenhan Lyu, Yinji Ma, Siyu Chen, Haibo Li, Peng Wang, Ying Chen, Xue Feng, Flexible ultrasonic patch for accelerating chronic wound healing, Advanced Healthcare Materials, 2021.( IF: 11.092 JCR分区: Q1 TOP 封面文章) 

[2] Wenhan Lyu, Xianmei Wu, Weijiang Xu, Nonlinear acoustic modelling and measurements during the fatigue process in metals, Materials, 2019. ( IF: 3.748 JCR分区: Q2 )

[3] Chen Siyu, Lyu Wenhan, Wang Gang, Chen Ying, Ma Yinji, Feng Xue，Mechanics analysis of ultra-thin chip peeling from substrate under multi-needle-ejecting and vacuum-absorbing，International Journal of Solids and Structures, 2021. ( IF: 3.9 JCR分区: Q1 TOP )

[4] Yixing Zhang, Wenhan Lyu, Mingxing Shi, Yinji Ma, Xue Feng,The effect of residual stresses on the relation between pulse wave velocity and blood pressure in arteries, Acta Mechanica Sinica, 2023. (IF: 2.910 JCR分区：Q2)

[5] Wenhan Lyu, Xianmei Wu, Di Zhang, Yunfei Ye, Quantitative estimation to circular holes in steel for non-destructive testing using ultrasonic phased array, Proceedings of the 2015 Symposium on Piezoelectricity, Acoustic Waves and Device Application, 2015. (EI)

[6] Wenhan Lyu, Xianmei Wu, Weijiang Xu, Jiayi Chen, High-order Solution of Nonlinear Acoustic Wave Equation for Isotropic Solids Using Perturbation and Finite Difference Methods, The 14th International Conference on Theoretical and Computation Acoustics, 2019.

[7] 吕文瀚，吴先梅，陈家熠，金属材料疲劳损伤检测的非线性声学方法，应用声学，2018.

[8] 吕文瀚，吴先梅，陈家熠，固体中非线性声波方程的摄动解与数值解，全国声学学术会议, 2018.

[9] 吴先梅，吕文瀚，陈家熠，固体中非线性纵波传播特性的摄动法研究，全国声学学术会议, 2017.

[10] 陈家熠，吕文瀚，程茜，吴先梅，光纤超声传感系统干涉仪臂长差影响分析，全国声学学术会议, 2018.

[11] Xianmei Wu, Hui Li, Wenhan Lyu, Shigong Zhang, Di Zhang, Numerical analysis on acoustic nonlinear phenomena between rough contact interfaces, The 2016 IEEE International Ultrasonics Symposium, 2016. (EI)

[12] 陈家熠，吴先梅，吕文瀚，程茜，光纤超声传感系统3×3耦合器输出信号的影响因素研究，声学技术，2018.

[13] Chao Zhang, Shouguo Yan, Bixing Zhang, Wenhan Lyu, Topological imaging in layered plate by guided waves, Proceedings of the 2016 Symposium on Piezoelectricity, Acoustic Waves and Device Application, 2016. (EI)

专利情况：

[1] 冯雪，吕文瀚，马寅佶，柔性超声波疲劳损伤检测装置及其制造方法，国家发明专利 ZL202010383034.9 (已授权)

[2] 冯雪，吕文瀚，马寅佶，血液粘稠度测量装置及方法，国家发明专利 ZL202010212123.1 (已授权)

专著情况：

[1] “十三五”国家重点出版物出版规划项目 软物质前沿科学丛书《柔性电子技术》，参与撰写 (已出版)