学术兼职

中国电子学会会员；IEEE Transcations on Microwave Theory and Techniques, IEEE ACCESS，IEEE Microwave and Wireless Components Letters，IEEE Transcations on Applied Serconductivity 等期刊审稿人

科研项目

1. 广州市重大科技专项，5G声表面波多工器关键技术的研究及射频模组开发，主持，纵向经费150万
2.高隔离度XXXX滤波组件开发，主持，横向经费25万
3. 基于高精度深硅工艺的MEMS加速度传感器微纳制造，主持，横向经费 8万
4. 玻璃组件高精微纳研磨技术研究，主持，横向经费30万
5. 天津市科技局-技术创新引导专项，企业科技特派员项目，高性能超导可调多拓扑滤波器研发，主持，纵向经费5万
6. 抗震支构架检测预约系统研发, 主持，横向经费1万
7. 南开大学博士创新科研基金重点项目，多通带带宽独立可控宽带外抑制微波滤波器研究, 主持，纵向经费1.5万
7. 广东省重点领域研发计划项目，基于纳米强织构薄膜及纳米压印关键技术的层状声表面波滤波器研发； 参与
8. 国家自然科学基金面上项目：约瑟夫森结阵列的相位锁定和时空混沌特性研究；参与
9. 国家青年科学基金青年项目：铊系高温超导薄膜生长及其微波非线性研究；参与
10. 国家自然科学基金面上项目：基于超导器件的太赫兹信号源研究；参与
11. 国家自然科学基金面上项目：基于本征约瑟夫森结阵列的可调超导滤波器及非线性机制研究； 参与

代表性论文

[1] Wan, X.H., Wang, L.T* .et al. Compact switchable microstrip lowpass filter using cross-shaped resonator with sextuple states. Microelectronics Journal, 2025,157, pp. 106565. 中科院3区 IF 2.2
[2] Deng, J.T., Wang, L.T* .et al. High-selectivity tri-band bandpass filter with transmission zeros induced by transmission path interference. Electromagnetics, 2025, 45(3), pp. 227-240. 中科院4区 IF 0.8
[3] Deng, J.T., Wang, L.T* .et al. Miniaturized Quad-Wideband Bandpass Filter With Multiple Transmission Zeros. International Journal of Circuit Theory and Applications, 2025, early access. 中科院3区 IF 2.3
[4] Wang, L.T., Chen, J., Li, D .et al. A novel microwave humidity sensor based on a complementary interdigital capacitor resonator. Sensors and Actuators B, 2025, 427, pp. 137211. 中科院1区Top IF 8.4
[5] Wan, X.H., Wang, L.T* .et al. Tri-/Quad-/Quint-Band Bandpass Filters Based on Transversal Embedded Asymmetrical Square-Ring Resonator. IEEE Access, 2024, 12, pp.92241-92252. 中科院3区 IF.3.9
[6] Chen, X., Wang, L.T* .et al. High-selectivity fully tunable wideband bandpass filter with adaptive transmission zeros. Microelectronics Journal, 2025, 156, pp.106504. 中科院3区 IF 2.2
[7] Li, C.P., Wang, L.T* .et al. Microwave Microfluidic Glucose Sensor Based on a Single-Port Dumbbell Defective Ground Structure. IEEE Sensors Journal, 24(16), pp. 25670-25679. 中科院2区 IF 4.3
[8] Li, W.L., Wang, L.T* .et al. Sharp-rejection dual ultra-wideband bandpass filter using sextuple mode resonator. Electromagnetics, 2024, 44(4), pp. 210-225. 中科院4区 IF 0.8
[9] Xu, D.S., Wang, L.T* .et al. A compact dual-band bandpass filter based on coupled stub-loaded square ring resonators by using transversal signal-interaction concept. ETRI Journal, 2024, 46(6), pp.1113-1124. 中科院 4区 IF1.4
[10] Wang, L.T., Chen, X., .et al. Design of a quad-band bandpass filter based on 13-mode resonator. Electromagnetics, 2024, 9, pp. 614-629. 中科院4区 IF 0.8
[11] Wang, L.T., Zhu, Z.Y, .et al.  Design of compact dual-band semi-lumped mixed bandpass filter. 45(2), pp.144-156. 中科院4区 IF 0.8
[12] Wang, L.T., Liu, B. Y. .et al. Design of Compact HTS Bandpass Filter with High Selectivity Operating Above 100 k. IETE Journal of Research, 2025, 71(2), pp. 626-633. 中科院4区 IF 1.5
[13] Wang, L.T., Li, Y.Q., .et al. Miniaturized independent controllable dual-bandbandpassfilter by using transversal signal interference concepts, Frequenz, 2024, 78(9-10), pp. 389-396. 中科院4区 IF1.1
[14] Wang, L.T., Chen, J., Li, D., .et al. Non-stoichiometric protic ionic liquids for efficient carbon dioxide capture and subsequent conversion under mild conditions. Separation and Purification Technology, 2024, 354, 6, pp.129302. 中科院1区Top IF 8.6
[15] Wang, L.T., Wang, Z., .et al. Design of compact semi-lumped mixed bandpass filter with wide stopband for 5G application. Chinese Journal of Radio Science. 2024, 39(4), 769-776. Scopus.
[16] Wang, L.T., Wang, Z., .et al. Design of high selectivity tri-band bandpass filter based on triple transversal transmission path. AEU-International Journal of Electronics and Communications, 2024, 181, pp. 155347. 中科院3区 IF 3.2
[17] Wang, L.T., Chen, X., .et al. Wideband bandpass filter with ultra-wide stopband based on cross-shaped parallel coupled lines. Journal of Electromagnetic Waves and Applications, 2024, 38(8), pp. 913-927. 中科院4区 IF 1.3
[18] Qian, L.R., Wang, L.T* .et al. Design of Compact Dual Wideband Bandpass Filter Based on Transversal Signal Interaction Concepts. Wireless Personal Communications, 2023, 133(1), pp. 245-257. 中科院4区 IF 2.2
[19] Qian, L.,Dou, Y.,Jiang, Y., Li, H.,Wang, L.T*. Design of Ultra-Wideband Balanced Bandpass Filter Based on Dual-Square Ring Configuration. Piezoelectrics and Acoustooptics, 2022, 44 (5). Scopus.
[20] Tian, Y., Wang, L.T*.,Wang, Y.,..Wu, J.,Wang, J. Research in nonlinearity of surface acoustic wave devices. Micromachines ,2021, 12(12), 1454. 中科院3区 IF 3.523
[21] Wang, L.T., Xiong, Y., Wang, Z.-P.,Gong, L. Transversal wideband bandpass filter with a wide stopband and multiple transmission zeros. ETRI Journal, 2021, 43(1), pp. 133–140. 中科院4区 IF 1.622
[22] Yue, H., Tang, H.,Wang, L.T*,...Xie, Q., Duan, J. Design of miniature high-temperature superconducting quadruplexer with wide stopband suppression. Physica C: Superconductivity and its Applications, 2020, 579, 1353735 中科院4区 IF 1.534
[23] Xiong, Y., Zhang, W., Zhong, Y.-P., Wang, L.T*. Dual-/tri-band bandpass filters with fully independent and controllable passband based on multipath-embedded resonators. International Journal of Microwave and Wireless Technologies, 2020, 12(10), pp. 1012–1019. 中科院4区 IF 1.09
[24] Wang, L.-T., He, M., Xiong, Y.,...Chen, H.-H.,Ji, L. Design of high selectivity narrowband eight-order high-temperature superconducting sextaplexer. Superconductor Science and Technology, 2020, 33(11), 115016. 中科院1区 IF 3.482
[25] Zhao, R., Wang, L.T* Zhang, X.et al. A OneM2M-Compliant Stacked Middleware Promoting IoT Research and Development. IEEE Access, 2018, PP: 1-1. 中科院3区 IF 3.476
[26] Wang, L.T., Y. Xiong, et al. Design of Dual-Band Bandpass Filter With Multiple Transmission Zeros Using Transversal Signal Interaction Concepts IEEE Microwave and Wireless Components Letters. Vol.29, No.1, 2019. 32-34. 中科院2区 IF 2.719
[27] Wang, L.T., Y. Xiong, et al., A High-Order L-Band HTS Filter for Sensitive Detecting. Journal of Superconductivity and Novel Magnetism, Volume 32, Issue 9, Pages 2849-2856. 中科院4区 IF 1.675
[28] Xiong, Y., Zhang, W., Wang, L.T*. Design of A Wideband Filter with Sharp Roll-Off. Journal of microwaves. 2020. 36(02). CSCD
[29] Wang, L.T., Xiong, Y., et al. Design of Compact Transversal Wideband Bandpass Filter with Wide Upper Stopband. Progress In Electromagnetics Research M, Vol. 96, 79–87, 2020. EI
[30] Xiong, Y., Zhang, W., Wang, L.T*. Ultra-Compact Bandpass Filter with Super Wide Upper Stopband. Progress In Electromagnetics Research Letters. Vol. 92, 61-67, 2020. EI
[31] Li, Z., Wang, L.T., et al. Compact dual-/tri-/quad-band bandpass filters with independently frequency-tunable and switchable passbands. International Journal of Microwave and Wireless Technologies, v 13, n4,p 322-334, 2021. 中科院4区 IF 1.09
[32] Liang, Z., Wang, L.T., et al. Dual-wideband differential bandpass filter with intrinsic common-mode suppression based on hybrid transmission structure. International Journal of RF And Microwave Computer-aided Engineering, v 13, n 4, p 322-334, 2021. 中科院4区 IF 1.987
[33] Zhou, J., Wang, L.T., et al. A compact quad-band bandpass filter with mixed electric and magnetic coupling. International Journal of Microwave and Wireless Technologies, v 11, n 5-6, p 517-522, 2019. 中科院4区 IF 1.09
[34] Xiong, Y., Wang, L.T*., et al. Compact tri-wideband bandpass filter with multiple transmission zeros. ETRI Journal, Volume 41, Issue 1, Pages 117-123, 2019. 中科院4区 IF 1.622
[35] Xiong, Y., Wang, L.T., et al. Dual-wideband bandpass filter with independently controllable center frequencies and wide stopband. International Journal of Microwave and Wireless Technologies, v 10, n 1, p 93-99, 2018. 中科院4区 IF 1.09
[36] Xiong, Y., Wang, L.T., et al. Design of switchable and reconfigurable semi-lumped wideband bandpass filter. ETRI Journal, v 39, n 5, p 756-763, 2017. 中科院4区 IF 1.622
[37] Guo, Z.Y., Wang, L.T., et al. Compact Differential Tri-Band Bandpass Filter with Multiple Zeros Using Sext-Mode Stepped-Impedance Square Ring Loaded Resonator. Progress In Electromagnetics Research C, Vol. 117, 73–87, 2021. EI
[38] Y. Xiong, Wang, L.T., et al., Design of dual-band bandpass filter with closely spaced passbands and multiple transmission zeros. Progress in Electromagnetics Research Letters. Vol.70, 2017.EI.
[39] Li. H., Wang, L.T.,et al. Design of tri-band and quad-band filters based on multimode resonators. Electronic Components and Materials.vol.37, no.12, 2018. CSCD
[40] Zhang. S.F., Wang, L.T., et al. Design of Dual-/Tri- Band BPF with Controllable Bandwidth Based on A Quintuple-mode resonator. Progress in Electromagnetics Research Letters, Volume 82, Pages 129-137, 2019. EI.
[41] Wang. Z.P, Wang, L.T., et al., Compact tunable dual/Tri-band bandpass filters with multiple zeros. IET Microwaves, Antennas and Propagation, Volume 13, Issue 7, Pages 1023-1030, June 12, 2019. 中科院4区 IF 1.824
[42] Xing. J., Wang, L.T.,et al., Growth of TlBa2Ca2Cu3O9epitaxial thin films by two-step method in argon. Chinese Physics Letters, Volume 38, Issue 2, 2021. 中科院3区IF 2.293
[43] Li. X. Q., Wang, L.T.,et al., Design of compact balanced bandpass filter with extremely wide stopband and common-mode suppression. Electronic Components and Materials.vol.39, no.10, 2020. CSCD

著作

1. Wang, L.T., Xiong, Y. and He, M. Review on UWB Bandpass Filters. IntechOpen,

专利

1.一种台式机电源箱减震固定装置，实用新型；专利号：CN202120823081.0
2.一种台式机拔插式外置散热器，实用新型；专利号：CN202120826311.93.
3.手机射频网络信号检测系统 V1.0，软件著作；专利号：2022SRE010538.
4. 一种恒定带宽的双通带独立可调带通滤波器，发明专利；专利号CN202211602163.8