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范 理
电子邮件 FanLi@nju.edu.cn
联系电话 025-83594502;18951635082
个人信息

    1998年由南京师范大学附属中学考入南京大学电子科学与工程系;2002年毕业于南京大学电子科学与工程系声学专业,后保送至本系声学专业硕博连读;2005年获得华英文教基金青年奖学金,2007年获得博士学位留校;2010年应聘声学专业副教授,硕士生导师。
    研究工作在Phys. Rev. B., Appl. Phys. Lett.,J. Acoust. Soc. Am.,Sensor. Actuat. B,J. Appl. Phys.等期刊上发表论文70余篇。 

论文代表作:

1.      Xue-Yu Zhang, Ren-Hao Ma, Ling-Sheng Li, Li Fan*, Yao-tao Yang, and Shu-yi Zhang
A room-temperature ultrasonic hydrogen sensor based on a sensitive layer of reduced graphene oxide
Sci. Rep.
11(1), 2021: 2404

2.      Liang Chen, Li Fan*, and Shu-yi Zhang
Acoustic conjugate metamaterials
Phys. Rev. B,
100(2), 2019:024111

3.      Wei Ao, Jin Ding, Li Fan*, and Shu-yi Zhang
A robust actively-tunable perfect sound absorber
Appl. Phys. Lett.,
115(19), 2019: 193506

4.      Wei-wei Yu, Li Fan*, Ren-hao Ma, Hui Zhang, and Shu-yi Zhang
Low-frequency and multiple-bands sound insulation using hollow boxes with membrane-type faces
Appl. Phys. Lett.,
112(18), 2018: 183506

5.      Jin Din, Li Fan*, Shu-yi Zhang, Hui Zhang, and Wei-wei Yu
Simultaneous realization of slow and fast acoustic waves using a fractal structure of Koch curve
Sci. Rep.
8, 2018: 1481

6.      Xiao-juan Li, Huan Ge, Li Fan*, Shu-yi Zhang, Hui Zhang, and Jin Ding
Acoustic-electromagnetic slow waves in a periodical defective piezoelectric slab
Chin. Phys. B,
26(7), 2017: 074302

 

7.      Li Fan*, Wei-wei Yu, Shu-yi Zhang, Hui Zhang, and Jin Ding
Zak phases and band properties in acoustic metamaterials with negative modulus or negative density
Phys. Rev. B,
94, 2016: 174307

8.      Zhe Chen, Cheng Xue, Li Fan*, Shu-yi Zhang, Xiao-juan Li, Hui Zhang, and Jin Ding
A tunable acoustic metamaterial with double-negativity driven by electromagnets
Sci. Rep.
6, 2016: 30254

9.      Xiao-juan Li, Cheng Xue, Li Fan*, Shu-yi Zhang, Zhe Chen, Jin Ding, and Hui Zhang
Simultaneous realization of negative group velocity, fast and slow acoustic waves in a metamaterial
Appl. Phys. Lett.,
108(23), 2016: 231904

10.  Zhe Chen, Li Fan*, Shu-yi Zhang, and Hui Zhang
Performance optimization of high-order Lamb wave sensors based on silicon carbide substrates
Ultrasonics,
65, 2016: 296-303

11.  Li Fan*, Jin Ding, Jun-jie Zhu, Zhe Chen, Shu-yi Zhang, Hui Zhang, and Xiao-juan Li
Suppression of harmonics in a thermoacoustic refrigerator based on an acoustic metamaterial
J. Acoust. Soc. Am.
138 (4), 2015: EL435-EL440

12.  Zhe Chen, Li Fan*, Shu-yi Zhang, Hui Zhang, Xiao-juan Li, and Jin Ding
An open-structure sound insulator against low-frequency and wide-band acoustic waves
Appl. Phys. Express,
8 (10), 2015: 107301.

13.  Li Fan*, Zhe Chen, Shu-yi Zhang, Jin Ding, Xiao-juan Li, and Hui Zhang
An acoustic metamaterial composed of multi-layer membrane-coated perforated plates for low-frequency sound insulation
Appl. Phys. Lett.,
106 (15), 2015: 151908.

14.  Li Fan*, Zhe Chen, Jun-jie Zhu, Jin Ding, Jie Xia, Shu-yi Zhang, Hui Zhang, and Huan Ge
Nonlinear effects in a model of a thermoacoustic refrigerator driven by a loudspeaker
J. Appl. Phys.,
117(12), 2015: 124502.

15.  Li Fan*, Zhe Chen, Yuan-chen Deng, Jin Ding, Huan Ge, Shu-yi Zhang, Yue-tao Yang, and Hui Zhang
Nonlinear effects in a metamaterial with double negativity
Appl. Phys. Lett.,
105(4), 2014: 041904.

16.  Huan Ge, Li Fan*, Jie Xia, Shu-yi Zhang, Sha Tao, Yue-Tao Yang, and Hui Zhang
Nonlinear impedances of thermoacoustic stacks with ordered and disordered structures
Chin. Phys. B,
23 (7), 2014: 074301

17.  Zhe Chen, Li Fan*, Shu-yi Zhang, and Hui Zhang
Theoretical research on ultrasonic sensors based on high-order Lamb waves
J. Appl. Phys.,
115(20), 2014: 204513.

18.  Li Fan*, Zhe Chen, Shu-yi Zhang, and Hui Zhang
Theoretical investigation of conductivity sensitivities of SiC-based bio-chemical
acoustic wave sensors
J. Appl. Phys.,
115(6), 2014: 064506.

19.  Li Fan*, Huan Ge, Shu-yi Zhang, Hai-fei Gao, Yong-hui Liu and Hui Zhang
Nonlinear acoustic fields in acoustic metamaterial based on a cylindrical pipe with periodically arranged side holes
J. Acoust. Soc. Am.,
133 (6), 2013: 3846-3852

20.  Li Fan*, Shu-yi Zhang, Huan Ge and Hui Zhang
Theoretical investigation of acoustic wave devices based on different piezoelectric films deposited on silicon carbide
J. Appl. Phys.,
114(2), 2013: 024504

21.  Li Fan*, Huan Ge, Shu-yi Zhang and Hui Zhang
Research on pass band with negative phase velocity in tubular acoustic metamaterial
J. Appl. Phys.,
112(5), 2012: 053523

22.  Huan Ge, Li Fan*, Shu-yu Xiao, Sha Tao, Meichen Qiu, Shu-yi Zhang and Hui Zhang
Nonlinear acoustic impedance of thermoacoustic stack
J. Appl. Phys.,
112(6), 2012: 063518

23.  Li Fan*, Shu-yi Zhang, Huan Ge and Hui Zhang
Theoretical optimizations of acoustic wave gas sensors with high conductivity sensitivities
Sens. Actuators B,
171-172, 2012: 1272-1276

24.  Li Fan*, Huan Ge, Shu-yi Zhang, Hui Zhang and Jian Zhu
Optimization of sensitivity induced by surface conductivity and sorbed mass in surface acoustic wave gas sensors
Sens. Actuators B,
161, 2012: 114-123


25. Li Fan, Shu-yi Zhang and Hui Zhang

      Transmission Characteristics in Tubular acoustic Metamaterials Studied with Fluid Impedance Theory
      Chin. Phys. Lett., 28(10), 2011: 104301.


26.  Li Fan, Feng-mei Zhou, Cheng Wang, Hui-dong Gao, Shu-yi Zhang, Hui Zhang and Xiang-bang Wang
Influence of Surface Conductivity on Sensitivity of Acoustic Wave Gas Sensors Based on Multilayered Structures,
IEEE Trans. Ultrason. Ferroelec., Freq. Contr., 58(2), 2011: 451-460.


27. Li Fan, Shu-yi Zhang and Hui Zhang

      Influence of the Nonlinearity of Loudspeakers on the Performance of Thermoacoustic Refrigerators Driven by Current and Voltage
      Chin. Phys. Lett., 27(7), 2010: 074301


    主持和参加科研项目:
 主持:

(1)    国家自然科学基金 基于石墨烯掺杂复合材料敏感层的超声波氢气传感器的研制

(2)    国家自然科学基金 基于声学超构材料的热声制冷的研究
(3)    国家自然科学基金 电声驱动热声制冷机中非线性声耦合的研究 

(4)   江苏省自然科学基金 基于谐振管的声超构材 料的理论与实验研究

(5)    教育部博士点基金 扬声器驱动的热声制冷机中非线性效应的研究 
(6)    航天材料及工艺研究所光超声检测复合材料缺陷预研究
 
参加:

(1)    国家自然科学基金 脉冲光声热波方法研究功能材料
(2)    国家自然科学基金 声流在非接触式超声马达中应用的研究
(3)    国家自然科学基金 新型超声传感器和传动器及其机理研究
(4)    中国原子能科学研究院放射化学研究所 激光光声谱仪光声系统配置
(5)    南京卓实电气有限公司 SF6气体泄漏激光成像系统


担任课程

担任本科课程:
电子线路基础;
担任研究生课程:
热波物理

研究领域

(1)热声制冷,谐振管中的声传播,多孔材料中的声传播,扬声器与谐振管的声耦合;
(2)超声传感器,多层材料中声传播的理论与实验研究,气体传感器,生物化学传感器的研制;
(3)声学超构材料,声学超材料中特异性能的理论与实验研究,以及在热声制冷和超声传感器领域的应用。