超声成像/检测新方法与仪器研制；柔性超声传感器/声学超材料与超结构；多模态超声成像/检测方法；超声无损检测与健康监测；超声仪器研制；原子力显微镜与微纳力学；超声自动化与智能检测

招生专业

081104-模式识别与智能系统
085600-材料与化工
080300-光学工程

招生方向

超声成像/检测方法与仪器研制，超声传感器与声学超材料，多模态高分辨率成像（光声、超声等)，智能超声无损检测与健康监测，原子力显微镜与微纳力学

1. Kui Yao, Shifeng Guo, Shuting Chen, Lei Zhang. Systems and methods for monitoring plastic deformation of a structural material. US Patent,10,677,682

2. 郭师峰；冯伟；陈丹；张艳辉；左锐；吴新宇. 一种在线超声成像检测装置. 中国发明. ZL 2019 1 1102907.8

3. 郭师峰; 谢银飞; 曹欢庆; 冯伟, 基于全向性超声探头的检测方法及其装置、超声检测系统, 中国发明专利, ZL202111614952.9.

4. 郭师峰; 陈丹; 冯伟; 李叶海; 张树潇; 吕高龙; 王石; 吴新宇, 一种电池检测系统和电池检测方法, 中国发明专利, ZL202100644424.1.

5. 郭师峰; 王石; 冯伟; 陈丹; 易正琨, 一种大尺寸光声换能器制备方法及制备设备, 中国发明专利, ZL202111572076.8.

6. 郭师峰; 冯伟; 李振; 张艳辉; 张树潇; 吴新宇, 柔性传感器制造设备和柔性传感器的制作方法, 中国发明专利, ZL201911260090.7.

7. 郭师峰;冯伟;李振;张艳辉;张树潇;吴新宇. 一种变压器的柔性压阻传感器的制备方法以及一种变压器. 中国发明. ZL 2019 1 1287456.X

8. 郭师峰;冯伟;左锐;熊新红;张艳辉;李光元;吴新宇. 一种发动机连杆裂解槽加工系统. 中国发明. ZL 2019 1 1304147.9

9. 郭师峰; 冯伟; 许晓燕; 冯豪文; 赵颖; 吴新宇, 细菌活性检测方法、装置、设备及其存储介质，中国发明, CN202111519297.9.

10. 郭师峰;冯伟;黄林冰;陈丹;吴新宇;李叶海;曹欢庆;张树潇,激光超声扫描成像装置以及激光超声扫描成像系统.中国发明专利. ZL 2020 1 0827326.7

 

1. Guo Shifeng, Zhu Xiaoying, Jańczewski Dominik, Lee SSC, He Tao, Teo LSM, Vancso GJ. 2016. Measuring protein isoelectric points at the molecular scale by AFM using trace amount of sample. Nature Nanotechnology, 2016,11:817-23.

2. Xu, Xiaoyan, Feng Haowen, Zhao Ying, Shi Yuzhu, Feng Wei, Loh Xian Jun, Vancso, GJ, Guo  Guo, Shifeng*. AFM based Nanomechanics and Machine Learning for Rapid and Non-destructive Detection of Bacterial Viability, Cell Reports Physical Science,2024, 5:101902

3. Fan, Jianfeng; Zhou, Yu; Ding, Shengchang; Pang, Yunsong; Zeng, Xiangliang; Guo, Shifeng*; Xu, Jianbin*; Ren, Linlin; Sun, Rong; Zeng, Xiaoliang*. Thermally Conductive Elastomer Composites with High Toughness, Softness, and Resilience Enabled by Regulating Interfacial Structure and Dynamics. Small, 2024, 20: 2402265.

4. Li, Yehai; Guo, Shifeng*; Su, Zhongqing; Ding, Keqin; Loh, Xian Jun. Lightweight and conformal acousto-ultrasonic sensing network for multi-scale structural health monitoring: A review. FlexMat, 2024, 1.

5. He, Zike; Xie, Yinfei; Zhang, Ting; Feng, Wei. In situ elastic constant determination of unidirectional CFRP composites via backwall reflected multi-mode ultrasonic bulk waves using a linear array probe. Composites Part B: Engineering, 2022, 238: 109953.

6. Li, Yehai; Wang, Kai; Feng, Wei; Wu, Hefeng; Su, Zhongqing; Guo, Shifeng*. Insight into excitation and acquisition mechanism and mode control of Lamb waves with piezopolymer coating-based array transducers: Analytical and experimental analysis. Mechanical Systems and Signal Processing, 2022, 178: 109330.

7. Li, Yehai; Yao, Zhijun; Jiang, Chao; Zhang, Zhen; Feng, Wei; Su, Zhongqing; Guo, Shifeng*. Investigation on local monitoring paradigms of in-situ conformally fabricated piezopolymer coating-based array transducers: Ultrasonic bulk waves and local ultrasonic resonances. Mechanical Systems and Signal Processing, 2024, 208: 110999.

8. Guo, Shifeng; Ding, Hao; Li, Yehai; Feng, Haowen; Xiong, Xinhong; Su, Zhongqing; Feng, Wei. A hierarchical deep convolutional regression framework with sensor network fail-safe adaptation for acoustic-emission-based structural health monitoring. Mechanical Systems and Signal Processing, 2022, 181: 109508.

9. He, Zike; Cao, Huanqing; Zhao, Peihan; Zhu, Qimin; Wu, Xinyu; Feng, Wei; Guo, Shifeng*. Noncontact measurement of elastic constants of anisotropic CFRP laminate using orthogonal cross-scan point source-point receiver laser ultrasound. IEEE Transactions on Instrumentation and Measurement, 2024, 73: 6008712.

10. Zhang, Kaixing; Chen, Dan; Wang, Shi; Yao, Zhijun; Feng, Wei; Guo, Shifeng*. Flexible and high-intensity photoacoustic transducer with PDMS/CSNPs nanocomposite for inspecting thick structure using laser ultrasonics. Composites Science and Technology, 2022, 228: 109667.

11. Guo, Shifeng; Huang, Yangyang; Chen, Dan; Ren, Linlin; Wang, Dawei; Feng, Wei. In-Situ Ultrasonic Inspection of Thickness and Morphology of Thermal Interface Material in Multilayer Structure Using Modified Minimum Entropy Deconvolution. IEEE Transactions on Instrumentation and Measurement, 2022, 71: 2006310.

12. Yao, Zhijun; Li, Yehai; Lv, Gaolong; Chen, Dan; Yang, Jian; Guo, Shifeng*. Structural optimization of photoacoustic transducer with PDMS/CSNPs nanocomposite for fatigue crack detection using laser-induced nonlinear surface waves. Materials & Design, 2024, 238: 112635.

13. Lv, Gaolong; Yao, Zhijun; Chen, Dan; Li, Yehai; Cao, Huanqing; Yin, Anmin; Liu, Yanjun; Guo, Shifeng*. Fast and high-resolution laser-ultrasonic imaging for visualizing subsurface defects in additive manufacturing components. Materials & Design, 2023, 225: 111454.

14. Lv, Gaolong; Guo, Shifeng*; Chen, Dan; Feng, Haowen; Zhang, Kaixing; Liu, Yanjun; Feng, Wei. Laser ultrasonics and machine learning for automatic defect detection in metallic components. NDT & E International, 2023, 133: 102752.

15. Yehai Li, Wei Feng, Long Meng, Kwong Ming Tse, Zhen Li, Linbing Huang, Zhongqing Su, Shifeng Guo*. Investigation on in-situ sprayed, annealed and corona poled PVDF-TrFE coatings for guided wave-based structural health monitoring: From crystallization to piezoelectricity. Materials & Design, 2021, 199: 109415.

16. Zhang, Shuxiao; Guo, Shifeng*; Li, Yehai; Cao, Huanqing; Su, Min; Yao, Zhijun; Feng, Wei. Deep-subwavelength ultrasonic imaging by MHz column-structured metalens: First evidence of quantitative visualization of subsurface defects. Applied Physics Letters, 2023, 123: 252202.

17. Chen, Qiping; Xie, Yinfei; Cao, Huanqing; He, Zike; Wang, Dawei; Guo, Shifeng*. Ultrasonic inspection of curved structures with a hemispherical-omnidirectional ultrasonic probe via linear scan SAFT imaging. NDT & E International, 2022, 129: 102650.

18. Cao, Huanqing; Guo, Shifeng*; Zhang, Shuxiao; Xie, Yinfei; Feng, Wei. Ray tracing method for ultrasonic array imaging of CFRP corner part using homogenization method. NDT & E International, 2021, 122: 102493.

19. Guo, Shifeng; Feng, Haowen; Feng, Wei; Lv, Gaolong; Chen, Dan; Liu, Yanjun; Wu, Xinyu. Automatic Quantification of Subsurface Defects by Analyzing Laser Ultrasonic Signals Using Convolutional Neural Networks and Wavelet Transform. IEEE Transactions on Ultrasonics Ferroelectrics and Frequency Control, 2021, 68: 10.

20. 曹欢庆，朱启民，赵培含，何梓科，郭师峰*。复杂型面结构超声成像检测研究进展，仪器仪表学报，2024，45（6）：93-104.

1. 国家高层次人才(青年)，超声传感与系统检测，2019/03-2022/03，200万，主持

2. 国家自然科学基金(数学天元基金重点)，基于超声-射线的芯片器件高分辨率成像数学理论、方法及应用, 2025/01-2026/12，210万，主持

3. 国家自然科学基金(联合基金重点)，大型航空复合材料复杂型面自适应相控阵三维聚焦成像智能检测关键技术研究, 2025/01-2026/12，210万，主持

4. 国家重点研发计划(课题)，导波增强感知调控机制及传感器阵列，2025/01-2027/12， 300万，主持

5. 国家自然科学基金(面上)，基于AFM力谱技术的足迹蛋白原位微观形貌和纳米力学性能研究, 2021/01-2024-12，60万，主持

6. 广东自然科学基金(联合基金重点)，Chiplet封装用高导热高柔顺热界面材料研发及其非接触原位无损检测关键技术研究，2024/03-2027/03，100万，主持

7. 广东省科技厅(人才类)，海洋装备关键结构防污损及健康监测，2020/03-2025/03， 250万，主持

8. 深圳市基础研究(重点)，柔性传感器形性调控及航空航天结构在线监测方法研究， 2025/01-2027/12，150万，主持

9. 深圳市基础研究(重点)，叠层封装非接触原位检测方法研究，2023/01-2025/12，200万，主持

10. 宁波市重大技术攻关项目，复杂零部件智能视觉检测关键技术与装备， 2021/12-2024/12，500万， 主持

11. 深圳市科创委(重点实验室)，深圳市超声智慧传感与系统检测重点实验室项目, 2020-03--2022-09，500万，主持

12. 深圳市基础研究(重点)，基于原子力显微镜AFM的藤壶幼虫“脚印蛋白”研究及防污技术开发, 2019/3-2022/03，200万，主持

（1）In-situ Fabricated Piezoelectric Film Ultrasonic Transducers for Evaluating Plastic Deformation of Alloy Structures   IEEE国际超声论坛   2019-10-03
（2）Shearography using wave-defect interactions for crack detection in metallic structures   IEEE国际超声论坛   2017-09-05
（3）Nonlinear Rayleigh surface waves for determining yielding of titanium alloy materials   IEEE国际超声论坛   2016-09-18
（4）Nonlinear Rayleigh surface acoustic waves for determining yielding of alloys    IEEE国际超声论坛   2015-10-21
（5）Evaluation of plastic deformation in titanium and aluminum alloys with nonlinear Rayleigh surface acoustic waves   2015-05-24
（6）Evaluation of adhesion forces for cyprids' temporary adhesive proteins using AFM   2014-07-06
（7）Study the interaction of cyprid temporary adhesive proteins and surfaces using AFM   2014-05-06

已指导学生

黄洋洋  硕士研究生  085400-电子信息  

任伟民  硕士研究生  085404-计算机技术  

冯豪文  硕士研究生  085211-计算机技术  

现指导学生

许晓燕  博士研究生  19256  

吕高龙  博士研究生  19256  

张树潇  博士研究生  19256  

何梓科  硕士研究生  085400-电子信息  

赵培含  博士研究生  19256  

霍子欣  硕士研究生  081100-控制科学与工程