李琦

博士/副教授/硕士生导师

通讯地址：辽宁省大连市 甘井子区凌海路1号 大连海事大学

电子邮箱：qili@dlmu.edu.cn

个人简介

副教授，主要研究方向为声学及力学超材料，发表学术论文10余篇，申请发明专利4项（授权1项），授权软件著作权1项，出版编著1部。担任10余种国际期刊审稿人，入选大连市本地全职高层次人才（青年才俊）和大连海事大学“星海工程”教师培养计划，培养毕业硕士研究生6名。

教育背景

2013.08—2018.08，匹兹堡大学，机械工程专业，博士；

2010.09—2013.06，大连理工大学，机械电子工程专业，硕士；

2009.09—2010.06，大连理工大学，机械设计制造及其自动化专业，学士；

工作履历

2023.07— 至今 大连海事大学，船舶与海洋工程学院 机械工程系，副教授；

2018.10 —2023.07大连海事大学，船舶与海洋工程学院 机械工程系，讲师；

研究领域

声学隐身斗篷；声学超材料；振动控制；功能材料

讲授课程

[1] 机械振动学，本科生；

[2] 机械系统动力学，本科生；

[3] 计算方法，本科生；

[4] 实验方法，本科生；

[5] 力学-控制-振动实验，本科生；

[6] 力学超材料设计理论及方法，本科生；

科研项目

[1]国家自然科学基金委青年科学基金项目，基于复合五模超材料的二维环形隐身声学透镜研究，2021~2023，主持；

[2]中央高校基本科研业务费项目，具有带隙和五模特征的力学超材料研究，2024-2025，主持；

[3]中央高校基本科研业务费项目，二维五模超材料单元有效性质及参数调节的有限元分析，2021-2021，主持；

[4]中央高校基本科研业务费项目，六方晶系五模超材料单元的建模及有效性质研究， 2019-2020，主持；

学术论文

[1] Rui Li, Qi Li∗, Feilong Gong, Zifei Xiao, Nakun Qi. A latticed metamaterial with mutual conversion characteristics between pentamode and bandgap. Wave Motion, 2026, 144,103739. https://doi.org/10.1016/j.wavemoti.2026.103739

[2] Rui Li, Qi Li∗ and Haichao Yuan. Bandgap characteristics of a novel self-similar chiral metamaterial. Physica Scripta，2026，101 045007 DOI 10.1088/1402-4896/ae3b22

[3] Xinglin Liu, Qi Li * and Yue Kong，Theoretical analysis and experimental verification of effective properties and wave-manipulation capabilities in hollow rectangular acoustic metamaterials, Physica Scripta, 2025, 100 105927. DOI 10.1088/1402-4896/ae0d10

[4] Feilong Gong, Qi Li∗, Zifei Xiao and Song Liu, Experimental verification of latticed acoustic metamaterials with pentamode to bandgap characteristics, European Physical Journal B, 2024,97:192. https://doi.org/10.1140/epjb/s10051-024-00834-w

[5] Feilong Gong, Qi Li∗, Xiaomei Sun, Yue Kong and Song Liu, Theoretical and experimental study of a two-dimensional circular stealth acoustic lens, Physica Scripta, 2024, 99, 115945. https://doi.org/10.1088/1402-4896/ad80e4

[6] Feilong Gong, Qi Li*, Yue Kong, Xiaomei Sun, Zifei Xiao, Three-dimensional phononic crystals with self-similar structures, Physica Scripta, 2024, 99,075968; https://doi.org/10.1088/1402-4896/ad55b2

[7] Chuang Zhou, Qi Li*, Xiaomei Sun, Zifei Xiao, Haichao Yuan. Two-Dimensional Pentamode Metamaterials: Properties, Manufacturing, and Applications. Crystals, 2024, 14(6), 521; https://doi.org/10.3390/cryst14060521.

[8] Qi Li*, Haichao Yuan, Xiaomei Sun, Zifei Xiao. Multiple Band Gaps of Two-dimensional elastic metamaterials with self-similar hierarchy. Physica Scripta, 2023, 98， 035706.

[9] Q. Li*, K. Wu, M. Zhang. Theoretical study of two-dimensional pentamode metamaterials with arbitrary primitive cells. Optoelectronics and advanced materials – rapid communications.2022, 16(7-8), 380-387.

[10] Qi Li*, Mingquan Zhang. Elastic Metamaterials of Hexagonal Unit Cells with Double-Cone Arms from Pentamode to Band Gap at Low Frequencies. Crystals, 2022, 12(5), 604.

[11] Qi Li*, Ke Wu, Mingquan Zhang. Two-dimensional composite acoustic metamaterials of rectangular unit cell from pentamode to band gap. Crystals, 2021,11(12),1457.

[12] Qi Li*, and Mingquan Zhang, Composite hexagonal pentamode acoustic metamaterials with tailored properties. Journal of Physics: Condensed Matter, 2020, 32,475701.

[13] Qi Li, and Jeffrey S. Vipperman*, Three-dimensional pentamode acoustic metamaterials with hexagonal unit cells. The Journal of the Acoustical Society of America, 2019, 145, 1372-1377.

[14] Qi Li, and Jeffrey S. Vipperman*, Two-Dimensional Arbitrarily Shaped Acoustic Cloaks with Triangular Patterns of Homogeneous Properties. Journal of Vibration and Acoustics, 2019, 141, 021014.

[15] Qi Li, and Jeffrey S. Vipperman*, Non-singular three-dimensional arbitrarily shaped acoustic cloaks composed of homogeneous parts. Journal of Applied Physics, 2018, 124, 035103.

[16] Qi Li, and Jeffrey S. Vipperman*, Two-dimensional arbitrarily shaped acoustic cloaks composed of homogeneous parts. Journal of Applied Physics, 2017, 122, 144902.

[17] Qi Li, and Jeffrey S. Vipperman*, Two-dimensional acoustic cloaks of arbitrary shape with layered structure based on transformation acoustics. Applied Physics Letters, 2014, 105, 101906.

编著

[1] 李琦. 图解超材料，化学工业出版社，2023

发明专利

[1] 李琦; 龚飞龙; 孔越; 孙笑妹; 肖子非. 一种具有支撑和隔振功能的自相似结构力学超材料, 授权发明专利, 专利号：ZL202311103284.2，2026年授权

[2] 李琦; 龚飞龙; 孔越; 孙笑妹; 肖子非. 具有隔声减振功能的自相似结构三维声子晶体, 发明公开, 申请(专利)号：CN202410256258.1

[3] 李琦; 肖子非; 孙笑妹; 刘铭昱. 一种基于五模超材料的温控声波通断开关,发明公开,申请(专利)号：CN202310846912.X

[4] 李琦; 孙笑妹; 肖子非.一种基于五模材料的环形声学透镜,发明公开，申请(专利)号：CN202310785523.0

软件著作权

[1] 李琦、孔越、龚飞龙，基于声学超材料的空心矩形结构等效声学参数计算软件, 证书号： 软著登字第13411888号, 2024年7月16日

荣誉及学术兼职

[1] 下列学术期刊审稿人

International Journal of Mechanical Sciences,  

Applied Physics Letters,  

Journal of Applied Physics,  

Applied Physics A: Materials Science & Processing,

Smart Materials and Structures

Physics Letters A,

Engineering Research Express

The Journal of the Acoustical Society of America,

Journal of Physics D: Applied Physics,

Journal of Physics: Condensed Matter,  

Physica Scripta

AIP Advances.  

Materials Research Express

[2] 教育部学位与研究生教育发展中心论文评审专家

[3] 教育部本科抽检毕业论文（设计）专家库专家

[4] 大连市本地全职高层次人才（青年才俊）

[5] 大连海事大学“星海工程”教师培养计划