声子晶体板中谷态拓扑边界和回音壁的研究，国家自然科学基金面上项目（12172256），2022.01-2025.12，61万

团队另有横向课题若干。

声子晶体板中谷态拓扑边界和回音壁的研究，国家自然科学基金面上项目（12172256），2022.01-2025.12，61万

装配式建筑连接节点质量检测和缺陷修复智能装备的研发及应用，昆山市双创人才计划（kssc202201053），2022.07-2025.6，100万

空间反演对称性破缺的Lamb波拓扑边界态的理论和实验研究，上海市2020年度“科技创新行动计划”自然科学基金项目（20ZR1462700），2020.07-2023.06，20万

微纳米拓扑回音壁声学器件的实验研究，专用集成电路与系统国家重点实验室（复旦大学）开放课题（2020KF006），2020.07-2021.12，10万

局部共振声子晶体的超分辨率成像和聚焦研究，国家自然科学基金青年项目（11602174），2017.01-2019.12，26万

团队另有横向课题若干。

2019年至今，论文情况

[1]  Chenwen Yang†, DanmeiZhang†, Jinfeng Zhao†, WeitaoYuan, Yang Long, Yongdong Pan, Hong Chen, Franco Nori, Konstantin Y. Bliokh*, ZhengZhong*, Jie Ren*, “Anomalous spin and spin-momentumlocking in chiral surface elastic waves”, Physical Review Letters (accepted) (2023).

[2]  Jinfeng Zhao†,Chenwen Yang†, Weitao Yuan†,Danmei Zhang, Yang Long, Yongdong Pan, Hong Chen, Zheng Zhong*, Jie Ren*, “Elastic valley spin controlled chiral coupling intopological valley phononic crystals”, Physical Review Letters, Vol. 129:275501 (2022).

[3]  Jinfeng Zhao†⁎,Qi Wang†, Xubo Wang, Weitao Yuan, YaoHuang, Shuhan Chen, Antoine Riaud, Jia Zhou⁎, “On-chip valley phononic crystal plates with gradedtopological interface”, InternationalJournal of Mechanical Sciences, Vol. 227: 107460 (2022).

[4]  Jinfeng Zhao†*,Yao Huang†, Weitao Yuan, Jian Zhang, Chao Song,Xiaoqing Zhang, Yongdong Pan, “Broadbandacoustic black hole for wave focusing and weak signal sensing”, Applied Acoustics, Vol.200, 109078 (2022).

[5]  Pengfei Li, Fan Yang*, Peng Wang, JinfengZhao, and Zheng Zhong*, “A noveldesign scheme for acoustic cloaking of complex shape based on regionpartitioning and multi-origin coordinate transformation”, Applied Mathematics and Mechanics (English Edition), Vol. 43: 1641(2022).

[6]  Siyuan Zhang, Fan Yang*, Puhao Li,Yijie Bian, Jinfeng Zhao, and Hualin Fan, “A topologically gradient body centered lattice design with enhancedstiffness and energy absorption properties”, Engineering Structures, Vol. 263: 114384 (2022).

[7]  Peng Wang, Fan Yang*, and JinfengZhao, “Compression behaviors andmechanical properties of modified face-centered cubic lattice structures underquasi-static and high-speed loading”, Materials,Vol. 15: 1949 (2022).

[8]  Chao Song, Xingchen Ma, JinfengZhao, Jian Zhang, Fan Yang, Yongdong Pan*, and Xiaoqing Zhang, “Broadband sound absorption and energy harvesting by agraded array of Helmholtz resonators”, IEEE Transactions onDielectrics and Electrical Insulation, Vol. 15: 1949 (2022).

[9]  Feng Li, Yuxuan Zhang, Yongdong Pan*,Jinfeng Zhao, and Xiaoqing Zhang, “Numerical and experimental analysis of focused air-coupled ultrasonictransducer based on cross-linked polypropylene film”, AIP Advances, Vol. 12: 035122 (2022).

[10]  Linxi Qiu,Fan Yang*, Zhennan Zhang, and Jinfeng Zhao, “Evaluating the J-integral of mode I crack in gradient nanocrystallinemetals with residual stress induced by surface mechanical treatment”, Proceedings of the Institution of MechanicalEngineers Part C - Journal of Mechanical Engineering Science, Vol. 0: 1-13 (2022).

[11]  潘永东，宋潮，赵金峰，张晓青，“基于超构材料设计吸声降噪结构的研究进展”，同济大学学报（自然科学版），第50卷第9期：1347-1359（2022）。

[12]  WeitaoYuan†, Chenwen Yang†, DanmeiZhang, Yang Long, Yongdong Pan, Zheng Zhong, Hong Chen, Jinfeng Zhao*,and Jie Ren*, “Observationof elastic spin with chiral meta-sources”, Nature Communications, Vol. 12: 6954, (2021).

[13]  JinfengZhao, Weitao Yuan, Fan Yang, and Zheng Zhong*, “Valley-chiral edge states ofantisymmetric plate wave in phononic crystals with linear defect”, Acta Mechanica Solida Sinica,Vol. 34(6): 810-819, (2021).

[14]  Chao Song,Jinfeng Zhao*, Xincheng Ma, Mi Zhang, Weitao Yuan, Fan Yang, Zefeng Wang, Xiaoqing Zhang, YongdongPan, “Multi-frequencysound energy harvesting using Helmholtz resonators with irradiated cross-linkedpolypropylene ferroelectret films”, AIPAdvances, Vol. 11: 115002, (2021).

[15]  Jinfeng Zhao, Xiaodong Cui, Bernard Bonello, Bahram Djafari-Rouhani, Weitao Yuan,Yongdong Pan, Jie Ren, Xiaoqing Zhang, and Zheng Zhong*, “Broadbandsub-diffraction and ultra-high energy density focusing of elastic waves in planargradient-index lenses”, Journal of the Mechanics and Physics of Solids, Vol.150: 104357, (2021).

[16]  Weitao Yuan, Jinfeng Zhao*, Yang Long, Jie Ren,and Zheng Zhong, “Multi-branch valley-chiral edge states of antisymmetricplate wave in phononic crystal plates withdouble-sided symmetric pillars”, International Journal of MechanicalSciences, Vol. 197: 106347, (2021).

[17]  Jiarui Zhang, Fan Yang*, YapingLiu, Zheng Zhong*,and Jinfeng Zhao, “On the deformation-induced grainrotations in gradient nano-grained copper based on molecular dynamicssimulations”, Nanotechnology Reviews, Vol. 10: 87-98, (2021).

[18]  Fenglin Zhang, Yongdong Pan*, Jinfeng Zhao, andXiaoqing Zhang, “Test, modeling and analysis of air-coupled ultrasonic transducerbased on piezoelectret film”, AIP Advances, Vol. 10: 065014, (2020).

[19]  Wei Wang, Bernard Bonello*, BahramDjafari-Rouhani, Yan Pennec,and Jinfeng Zhao,“Elastic stubbed metamaterial plate with torsional resonances”, Ultrasonics,Vol. 106: 106142, (2020).

[20]  Wei Wang, Bernard Bonello*, Bahram Djafari-Rouhani, XinFang, Yan Pennec, Jinfeng Zhao, and Yabin Jin, “Active control of thetransmission of Lamb waves through an elastic metamaterial”, Journal ofApplied Physics, Vol. 128: 065107 (2020).

[21]  Zheng Zhang, Jinfeng Zhao, and Yongdong Pan*, “Surface circular-arc defects interacted bylaser-generated Rayleigh wave”, Ultrasonics, Vol. 103: 106085, (2020).

[22]  Jinfeng Zhao†*,Weitao Yuan†,Olga Boyko, Bernard Bonello, Xiaoqing Zhang, Yongdong Pan, and ZhengZhong*, “Experimental evidence of quadrupolar whispering-gallery modes inphononic crystal based waveguides”, AIP Advances, Vol. 9: 085032,(2019).

[23]  Yuan Xue, JinfengZhao*, Xiaoqing. Zhang*, Gerhard M Sessler, and Mario Kupnik, “Acoustic energy harvesting with irradiated cross-linkedpolypropylene piezoelectret films”, Physica Scripta, Vol. 94: 095002,(2019).

[24]  Xiaodong Cui†, Jinfeng Zhao†*,Olga Boyko*, Bernard Bonello, and Zheng Zhong, “Multi-branchsubwavelength focusing of the lowest-order antisymmetric Lamb mode in agradient-index phononic crystal”, International Journal of Mechanical Sciences,Vol. 157-158: 677-683, (2019).

[25]  Jinfeng Zhao†*,Weitao Yuan†,Bernard Bonello,BahramDjafari-Rouhani, Yongdong Pan, andZheng Zhong*,“Rainbow guiding of the lowest-order antisymmetric Lamb mode in phononiccrystal plate”, Science China Technological Sciences, Vol. 62(3): 458-463, (2019).

[26]  张政，赵金峰，潘永东*，“声表面波在圆弧处反射及透射的数值研究”，应用声学，第38卷第5期：815-823，（2019）。

[27]  金谏，周若阳，赵金峰，潘永东*，刘学增，桑运龙，顾盛，“激光扫描混凝土裂缝的超声检测”，激光技术，第43卷第4期：453-459，（2019）。

2019年至今，专利情况

[1]     潘永东，赵金峰，李秋玉，张政。“一种基于缺陷态声学超材料的多层板俘能结构”，发明专利，专利号：ZL202110224758.3，授权公告日：2022.12.16。

[2]     杨帆，赵金峰，郭正淼，卞亦杰，李鹏飞。“一种带孔空心杆和基于带孔空心杆的吸声结构”，实用新型专利，专利号：ZL202220839883.5，授权公告日：2022.12.2。

[3]     赵金峰，袁伟桃，张晓青。“一种横向反对称弹性波激发装置及制备方法”，发明专利，专利号：ZL202111222229.6，授权公告日：2022.09.16。

[4]     顾胜，潘永东，曹洁，赵金峰。“基于可视化的调速式套筒补浆装置”，实用新型专利，专利号：ZL202221357076.6，授权公告日：2022.9.16。

[5]     赵金峰，袁伟桃。“一种双通道控制的自旋板波波源激发装置”，实用新型专利，专利号：ZL202122567760.9，授权公告日：2022.5.31。

[6]     童寿兴，顾胜，赵金峰，潘永东。“一种简易型套筒灌浆饱满度定量检测装置”，实用新型专利，专利号：ZL202121446218.1，授权公告日：2022.1.25。

[7]     赵金峰，袁伟桃，任捷，龙洋，潘永东，仲政。“多通道相位差控制的弹性波自旋源激发装置和制备方法”，发明专利，专利号：ZL202011271592.2，授权公告日：2021.12.31。

[8]     赵金峰，潘永东，曹洁，周如辰，游昌壕，高硕杰。“一种硬度仪”，实用新型专利，专利号：ZL202120062644.9，授权公告日：2022.11.26。

[9]     赵金峰，宋潮，马星辰，张晓青。“一种低频宽带噪声吸收与能量采集装置及其制备方法”，发明专利，专利号：ZL202010477302.3，授权公告日：2021.9.3。

[10]  李峰，赵仲杰，潘永东，赵金峰。“一种自聚焦超声换能器焦域与灵敏度测量方法”，发明专利，专利号：ZL202010578507.0，授权公告日：2021.9.3。

[11]  王泽峰，赵金峰，桂琪珍，袁伟桃。“基于多通道相位差控制的声子激发方法与控制系统”，发明专利，专利号：ZL201811649773.7，授权公告日2021.7.13。

[12]  王泽峰，赵金峰，桂琪珍，袁伟桃。“相位差和寂灭期可控的多通道异频声子激发装置”，实用新型专利，专利号：ZL201822261962.9，授权公告日2019.11.22。

[13]  赵金峰，袁伟桃。“一种双通道控制的自旋板波波源激发装置及其制备方法”，发明专利，申请号：202122567760.9 ，申请日期：2021.10.25。

[14]  赵金峰，潘永东，童寿兴，曹洁。“一种装配式混凝土结构套筒灌浆饱满性的超声检测方法”，发明专利，申请号：202110491386.0，申请日期：2021.5.6。

[15]  顾胜，赵金峰，赵建华，潘永东，童寿兴。“一种针对套筒灌浆缺陷的单孔补灌整治方法”，发明专利，申请号：202110399707.4，申请日期：2021.4.14。

[16]  杨帆，李鹏飞，赵金峰，郭正淼，卞奕杰。“一种适应不同波传播方向的声学斗篷坐标变换设计方法”，发明专利，申请号：202210296788.X，申请日期：2022.3.24。

[17]  杨帆，李鹏飞，赵金峰，卞奕杰，郭正淼。“基于形状拆分和多中心局部坐标变换的任意形状声学斗篷设计方法”，发明专利，申请号：202210296795.X，申请日期：2022.3.24。