刘硕

发布者:沈如达发布时间:2022-04-11浏览次数:12696

职称:教授

办公室:九龙湖信息大楼1112

办公电话: 

Emailliushuo.china@seu.edu.cn

个人主页:

http://seu.teacher.360eol.com/teacherBasic/preview?teacherType=&teacherId=10731

学习经历:

20129– 20179yl23455永利官网,yl23455永利官网,博士学位

20069– 20106yl23455永利官网,yl23455永利官网,学士学位

工作经历:

20222至今yl23455永利官网,yl23455永利官网,yl23455永利官网青年首席教授

201712– 202110英国伯明翰大学,物理与天文学院,玛丽居里学者/博士后

教授课程:

《电路》,本科,64课时

科研项目:

  • 国家重点研发计划“基于信息超构材料的无线通信中继器件及系统”,1493万元,主持,项目负责人,在研。

  • 国家重点研发计划“基于拓扑电路的物态调控及应用研究”,280万元,课题骨干,2023.1-2027.12,在研。

  • 国家自然科学基金青年科学基金项目“低成本动态波束赋形超表面”,30万元,主持,2023.1-2025.12,在研。

  • 国家自然科学基金区域创新发展联合基金“无线通信“一次一密”的内生安全理论与基于信息超材料的实现方法”,50万元,课题骨干,2023.1-2025.12,在研。

  • 国家自然科学基金优秀青年(海外),200万元,主持,在研。

  • yl23455永利官网新进教师科研启动经费,100万元,主持,在研。

  • ZB预研重点实验室基金“无源型波束可重构反射面天线”,主持,30万元,2022.6-2024.6,结题。

研究方向:

超材料,超表面,拓扑电路

获奖情况:

2021.12          ·国家青年高层次人才(2021)

2021.03          ·电子信息领域优秀科技论文(2021)

2019.11          ·中国电子学会优秀博士论文奖

2019.11          ·江苏省优秀博士论文奖

2019.01          ·玛丽居里学者基金(Individual Fellowships)

2018.12          ·第三届中国科协优秀论文科技论文遴选计划

2017.05           ·yl23455永利官网青年五四奖章     

2017.03           ·2016中国光学重要成果

2016.12           ·美国光学学会201630项光学成果

2016.11           ·宝钢优秀学生特等奖

论文著作:

学术专著及论文

专著:

1.        Tie Jun Cui and Shuo Liu,   Information Metamaterials, Cambridge University Press, ISBN:9781108958011, 2021

2.        Shuo Liu, Tie Jun   Cui. Surface Electromagnetics: With Applications in Antenna, Microwave, and   Optical Engineering. Chapter 9   ‘Coding and Programmable Metasurfaces’, Cambridge University Press ISBN:9781108556477, pp 301-324, 2019.

3.        刘硕,崔铁军,超材料(“中国战略性新兴产业——前沿性新材料”丛书),第六章,信息超材料及应用,中国铁道出版社,ISBN:9787113269845,   2019.

4.        刘硕,电磁超材料,第二章,空间数字编码超材料的设计机理和远场综合技术,yl23455永利官网出版社,ISBN:978-7-5766-0187-9,   2021.

论文:

1.        Shuo Liu, Tie Jun   Cui, Quan Xu, Di Bao, Liang Liang Du, Xiang Wan, Chun Mei Ouyang, Hao Yuan,   Hui Feng Ma, Wei Xiang Jiang, Jia Guang Han, Wei Li Zhang, Qiang Cheng. Anisotropic   coding metamaterials and their powerful manipulation of differently polarized   terahertz waves. Light: Science & Applications,   2016, 5, e16076 (被美国光学学会遴选为2016年最激动人心的30项光学成果,入选由中国激光杂志社举办的第11届“2016中国光学重要成果,Web of Science高被引).

2.        Shuo Liu, Tie Jun   Cui, Lei Zhang, Quan Xu, Qiu Wang, Xiang Wan, Jian Qiang Gu, Wen Xuan Tang,   Mei Qing Qi, Jia Guang Han, Wei Li Zhang, Xiao Yang Zhou, Qiang Cheng. Convolution   operations on coding metasurface to reach flexible and continuous controls of   terahertz beams. Advanced Science , 2016, 3, 1600156. (封面文章,关于数字卷积编码超表面的工作被国家自然科学基金委遴选为2016年十大基础科研成果,Web of   Science高被引)

3.        Shuo Liu, Shaojie Ma, Ruiwen Shao, Lei Zhang, Tao   Yan, Qian Ma, Shuang Zhang, Tie Jun Cui. Moiré metasurfaces for dynamic   beamforming. Science Advances,   2022, 8, abo1511.

4.        Shuo Liu, Shaojie Ma, Qian Zhang, Lei Zhang,   Cheng Yang, Oubo   You, Wenlong Gao, Yuanjiang Xiang,Tie Jun Cui and Shuang Zhang. Octupole   corner state in a three-dimensional topological circuit. Light: Science &   Applications, 2020, 9, 145.

5.        Shuo Liu, Tie Jun   Cui, Ahsan Noor, Zui Tao, Hao Chi Zhang, Guo Dong Bai, Yan Yang, Xiao Yang   Zhou. Negative reflection and negative surface wave   conversion from obliquely incident electromagnetic waves. Light: Science &   Applications, 2018, 7, 18008.

6.        Shuo Liu, Hai Bing   Chen, Tie Jun Cui. A broadband terahertz absorber using multi-layer stacked   bars. Applied Physics Letter, 2015, 106, 151601. (Web of Science高被引)

7.        Shuo Liu, Hao Chi   Zhang, Lei Zhang, Quan Xu, Quan Long Yang, Jian Qiang Gu, Hui Feng Ma, Wei   Xiang Jiang, Xiao Yang Zhou, Jia Guang Han, Wei Li Zhang, Qiang Cheng, Tie   Jun Cui. Full-State Controls of Terahertz Waves Using Tensor Coding   Metasurfaces, ACS Applied Materials & Interfaces. 9(25), 21503-21514, 2017.

8.        Shuo Liu, Lei   Zhang, Quan Long Yang, Quan Xu, Yan Yang, Ahsan Noor, Qian Zhang, Shahid   Iqbal, Xiang Wan, Zhen Tian, Wen Xuan Tang, Qiang Cheng, Jia Guang Han, Wei   Li Zhang, Tie Jun Cui. Frequency-Dependent Dual-Functional Coding   Metasurfaces at Terahertz Frequencies, Advanced Optical Materials, 4(12),1965-1973,2016.

9.        Shuo Liu, Qiang   Cheng, Quan Xu, Tian Qi Wang, Liang Liang Du, Kang Luan, Yue Hong Xu, Di Bao,   Jia Guang Han, Wei Li Zhang, Tie Jun Cui. Free-standing metasurfaces for high   efficiency transmitarrays for controlling terahertz waves. Advanced   Optical Materials, 2016, 4, 384-390.

10.     Shuo Liu, Ahsan   Noor, Liang Liang Du, Lei Zhang, Quan Xu, Kang Luan, Tian Qi Wang, Zhen Tian,   Wen Xuan Tang, Jiang Guang Han, Wei Li Zhang, Xiao Yang Zhou, Qiang Cheng,   Tie Jun Cui. Anomalous Refraction and Nondiffractive Bessel-Beam Generation   of Terahertz Waves through Transmission-Type Coding Metasurfaces, ACS Photonics, 3(10), 1968-1977,   2016.

11.     Shuo Liu, Wenlong   Gao, Qian Zhang, Shaojie Ma, Lei Zhang, Changxu Liu, Yuan Jiang Xiang, Tie   Jun Cui, and Shuang Zhang.Topologically   Protected Edge State in Two-Dimensional Su–Schrieffer–Heeger Circuit. Research, Feb 5th,   2019, 8609875.

12.     Shuo Liu, Shaojie   Ma, Ruiwen Shao, Lei Zhang, Biao Yang, Miguel Navarro-Cia, Tie Jun Cui,   Shuang Zhang. Edge state mimicking topological behavior in a one-dimensional   electrical circuit. New Journal of Physics, 23, 103005 (2021)

13.     Shuo Liu, Wenlong   Gao, Qian Zhang, Shaojie Ma, Lei Zhang, Changxu Liu, Yuan Jiang Xiang, Tie   Jun Cui, and Shuang Zhang.Gain- and   Loss-Induced Topological Insulating Phase in a Non-Hermitian Electrical Circuit.   Physical Review Applied, 2020, 13, 014047.

14.     Shuo Liu,   Ruiwen Shao, Shaojie Ma, Lei Zhang, Oubo You, Haotian Wu, Yuan   Jiang Xiang, Tie Jun Cui, Shuang Zhang. Non-Hermitian skin effect in a   non-Hermitian electrical circuit.   Research, 2021, 5608038.

15.     Shuo Liu,Tie Jun Cui. Concepts,   Working Principles, and Applications of Coding and Programmable   Metamaterials, Advanced Optical Materials, 2017, 5(22),   1700624. (封面文章).

16.     Shuo Liu, Tie Jun   Cui. Flexible   Controls of Terahertz Waves Using Coding and Programmable Metasurfaces.   IEEE Journal of Selected Topics in   Quantum Electronics, 23(4),1-12,2016.

17.     Shuo Liu, He Xiu   Xu, Hao Chi Zhang, Tie Jun Cui. Tunable ultrathin mantle cloak via   varactor-diode-loaded metasurface. Optics Express, 2014, 22(11),13403-13417   

18.     Shuo Liu, Tie Jun Cui. Flexible controls of   scattering clouds using coding metasurfaces. Scientific Reports,   2016, 6, 37545.

19.     Shuo Liu, Jun   Chuan Zhuge, Shao Jie Ma, Hai Bing Chen, Di Bao, Qiong He, Lei Zhou, Tie Jun   Cui. A bi-layered quad-band metamaterial absorber at terahertz frequencies. Journal   of Applied Physics, 2015, 118, 245304.

20.     Shuo Liu, Hao Chi   Zhang, He Xiu Xu, Tie Jun Cui. Nonideal ultrathin mantle cloak for   electrically large conducting cylinders. Journal of the Optical Society of AmericaA, 2014, 31(9), 2075-2082.

21.     Shuo Liu, Lin Hui   Chen, Yong Chun Zhou, Tie Jun Cui. A general theory to analyse and   design wireless power transfer based on impedance matching. International   Journal of Electronics, 2014, 101(10),1375-1404.

22.     Shuo Liu, Lei   Zhang, Guo Dong Bai, Tie Jun Cui. Flexible controls of broadband   electromagnetic wavefronts with a mechanically programmable metamaterial. Scientific Reports, 2019, 9, 1809.

23.     Shuo Liu, Shuang   Zhang, Tie Jun Cui. Topological circuit: a playground for exotic topological   physics. Chinese Optics, 14(4): 736-753.

24.     Tie Jun Cui, Shuo Liu (共同一作), Lian Lin   Li.Information entropy of coding metasurface. Light:   Science & Applications, 2016, 5, e16172. (National Science Review选为“Research Highlight,被中国激光评选为2016年度全球光学届十大科研突破, Web of Science高被引).

25.     Tie Jun Cui, Shuo Liu (共同一作), Guo Dong   Bai, Qian Ma. Direct Transmission of Digital Message via Programmable Coding   Metasurface. Research, 2019,   2584509. (Research期刊2020年优秀论文奖、2021年电子信息领域优秀科技论文)

26.     Hao Chi Zhang, Shuo Liu (共同一作), Xiao   Peng Shen, Lin Hui Chen, Lian Ming Li, Tie Jun Cui. Broadband amplification   of spoof surface plasmon polaritons at microwave frequencies. Laser   & Photonics Reviews, 2015, 9(1), 83-90. (封面文章, Web of   Science高被引)

27.     Qiang Cheng, Lei   Zhang, Jun Yan Dai, Wankai Tang, Jun Chen Ke, Shuo   Liu, Jing Cheng Liang, Shi Jin, and Tie Jun Cui, Reconfigurable   Intelligent Surfaces: Simplified-Architecture Transmitters - From Theory to   Implementations. Proceedings   of IEEE, 2022,doi: 10.1109/JPROC.2022.3170498.

28.     Lei Zhang, Xiao Qing Chen, Shuo Liu, Qian Zhang, Jie   Zhao, Jun Yan Dai, Guo Dong Bai, Xiang Wan, Qiang Cheng, Giuseppe Castaldi,   Vincenzo Galdi, and Tie Jun Cui, Space-time-coding digital metasurfaces, Nature   Communications, 2018, 9, 4334. (Web of Science高被引)

29.     Lianlin Li, Tie Jun Cui, Wei Ji, Shuo Liu, Jun Ding, Xiang Wan,   Yun Bo Li, Menghua Jiang, Cheng Wei Qiu, Shuang Zhang. Electromagnetic   Reprogrammable Coding-Metasurface Holograms. Nature Communications,   8, 197, 2017. (Web of Science高被引)

30.     Lin Hui Chen, Shuo Liu, Yong Chun Zhou, Tie Jun Cui. An Optimizable   Circuit Structure for High-Efficiency Wireless Power Transfer. IEEE   Transactions on Industrial Electronics, 2013, 60(1), 339-349. (Top 1% ESI高被引)

31.     Tie Jun Cui, Shuo Liu, Lei Zhang. Information metamaterials and   metasurfaces.Journal of Materials Chemistry C, 2017, 5, 3644-3668.

32.     Hao Tian Wu, Shuo Liu, Xiang Wan, Lei Zhang, Dan Wang, Lianlin Li, Tie   Jun Cui. Controlling energy radiations of electromagnetic waves via frequency   coding metamaterials. Advanced Science, 2017, 4(9),   1700098.

33.     Lei Zhang, Shuo Liu, Lianlin Li, Tie Jun Cui. Spin-Controlled   Multiple Pencil Beams and Vortex Beams with Different Polarizations Generated   by Pancharatnam-Berry Coding Metasurfaces. ACS Applied Materials &   Interfaces, 2017, 9, 36447-36455.

34.     Massimo Moccia, Shuo Liu, Rui Yuan Wu, Giuseppe Castaldi, Antonello   Andreone, Tie Jun Cui, and Vincenzo Galdi. Coding Metasurfaces for Diffuse   Scattering: Scaling Laws, Bounds, and Suboptimal Design. Advanced Optical Materials,   2017, 5, 1700455.

35.     Tie Jun Cui, Lianlin Li, Shuo Liu,   Qian Ma, Lei Zhang, Xiang Wan, Wei Xiang Jiang, and Qiang Cheng. Information   Metamaterial Systems. iScience, 2020, 23, 101403.

36.     Lei Zhang, Xiang Wan, Shuo Liu, Jia Yuan Yin, Qian Zhang, Hao Tian Wu, Tie Jun   Cui. Realization of Low Scattering for a High-Gain Fabry-Perot Antenna Using   Coding Metasurface. IEEE Transactions on Antennas and   Propagation, 2017, 65(7), 3374-3383.

37.     Haotian Wu, Guo Dong Bai, Shuo Liu,   Lianlin Li, Xiang Wan, Qiang Cheng, Tie Jun Cui, Information theory of   metasurfaces, National Science Review, 7(3), 561-571, 2020.

38.     Rui Yuan Wu, Chuan Bo Shi, Shuo Liu,   Wei Wu, Tie Jun Cui. Addition theorem for   digital coding metamaterials. Advanced Optical Materials, 2018, 6(5), 1701236.

39.     Zhen Liao, Shuo Liu, Hui Feng Ma, Chun Li, Biao Jin, Tie Jun Cui. Electromagnetically   induced transparency metamaterial based on spoof localized surface plasmons   at terahertz frequencies. Scientific Reports, 2016,   6, 27596.

40.     Qihao Lv, Cheng Jin,* Binchao Zhang, Liyuan   Yin, Shuo Liu, Buning Tian, and Tie Jun Cui Ultrawide-Angle Ultralow-Reflection   Phenomenon for Transverse Electric Mode in Anisotropic Metasurface Advanced Optical Materials, 2022,   2102400.

41.     Li Hua Gao, Qiang Cheng, Jing Yang, Shao Jie Ma, Jie Zhao, Shuo Liu, Hai Bing Chen, Qiong   He, Wei Xiang Jiang, Hui Feng Ma, Qi Ye Wen, Lan Ju Liang, Biao Bing Jin, Wei   Wei Liu, Lei Zhou, Jian Quan Yao, Pei Heng Wu, Tie Jun Cui. Broadband   diffusion of terahertz waves by multi-bit coding metasurfaces Terahertz.   Light:   Science & Applications, 2015, 4, e324 (Web of Science高被引)

42.     Jie Zhao, Xi Yang, Jun Yan Dai, Qiang Cheng,   Xiang Li, Ning Hua Qi, Jun Chen Ke, Guo Dong Bai, Shuo Liu, Shi Jin, Andrea Alu, Tie Jun Cui,Programmable   time-domain digital-coding metasurface for non-linear harmonic manipulation   and new wireless communication systems, National Science Review,   6(2), 231-238.2018. (Web of Science高被引)

43.     Jun Wei Wu, Zheng Xing Wang, Lei Zhang, Qiang   Cheng, Shuo Liu, Shuang Zhang, Ji Ming Song, Anisotropic   Metasurface Holography in 3D Space with High Resolution and   Efficiency, IEEE Transactions on Antennas and Propagation,2021,   69(1), 302-316.

44.     Massimo Moccia, Can Koral, Gian Paolo Papari,   Shuo Liu, Lei Zhang, Rui   Yuan Wu, Giuseppe, Castaldi, Tie Jun Cui, Vincenzo Galdi, Antonello Andreone,   Suboptimal Coding Metasurfaces for Terahertz Diffuse Scattering, Scientific   Reports, 8, 11908, 2018.

45.     Hao Tian Wu, Dan Wang, Xiaojian Fu, Shuo Liu, Lei Zhang, Guo Dong   Bai, Cheng Zhang, Wei Xiang Jiang, Hao Lin Jiang, Rui Yuan Wu, Jun Wei Wu,   Tie Jun Cui, Space-Frequency-Domain Gradient   Metamaterials. Advanced Optical Materials, 6(23), 1801086, 2018.

46.     Shahid Iqbal, Shuo Liu, Ruiyuan Wu, Guodong Bai, Qian Ma, Tie Jun Cui,   Polarization-Selective Dual-Band Digital Coding Metasurface for Controls of   Transmitted Waves, Journal of Physics   D: Applied Physics, 51(28), 285103, 2018.

47.     Hao Chi Zhang, Wen Xuan Tang, Jie Xu, Shuo Liu, Jun Feng Liu, Tie Jun   Cui. Reduction of Shielding-Box Volume Using SPP-Like Transmission Lines. IEEE   Transactions on Components, Packaging & Manufacturing Technology,   2017, 7(9), 1486-1492.

48.     Qian Zhang, Che Liu, Xiang Wan, Lei Zhang, Shuo Liu, Yan Yang, Tie Jun   Cui, Machine-Learning Designs of Anisotropic Digital Coding Metasurfaces. Advanced   Theory and Simulations, 2(2), 1800132, 2018.

49.     Qian Zhang, Xiang Wan, Shuo Liu, Jia Yuan Yin, Lei Zhang, Tie Jun Cui. Shaping   electromagnetic waves using software-automatically-designed metasurfaces. Scientific   Reports, 7(1),3588, 2017.

50.     Hadi Teguh Yudistira, Shuo Liu, Tie Jun Cui, Han Zhang, Tailoring polarization   and magnetization of absorbing terahertz metamaterials using a cut-wire   sandwich structure, Beilstein Journal   of Nanotechnology, 9(1), 1437-1447, 2018.

51.     张磊,刘硕,崔铁军. 电磁编码超材料的理论与应用. 中国光学, 2017, 10(1), 1-12.

52.     刘俊峰,刘硕,傅晓健,崔铁军.太赫兹信息超材料与超表面.雷达学报,20187(1), 46-55.

专利:

专利号

专利名称

专利类型

ZL201610975977.4

一种散射可控型随机编码超表面及控制方法

发明专利

ZL201810642069.2

基于数字编码超材料的直接辐射无线数字通信系统及方法

发明专利

ZL201510359592.0

2-比特太赫兹各向异性电磁编码超材料及应用

发明专利

ZL201110153970.1

一种无线能量传输装置

发明专利

ZL201210009526.7

一种小型电子设备无线充电装置

发明专利

ZL201410604357.0

一种基于人工表面等离激元器件的波导结构及放大器

发明专利

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