李劲锋，东方钢琴少年，首届国际非职业钢琴比赛青年组国际亚军，擅长即兴演奏跨时代感的新世纪音乐。 代表作有：钢琴原创专辑《慕尼黑车站》《国王十字》原创英伦古典钢琴新民谣专辑、钢琴即兴编曲《圣母玛利亚之泪》《华语情歌串烧》《风云雄霸天下 钢琴组曲》《神探狄仁杰》《东方钢琴连奏》《最终幻想钢琴合集》《Flower Dance》《大鱼·海棠》《还珠格格 钢琴组曲》《周星驰钢琴组曲》《薛之谦钢琴串烧》《中华小当家钢琴组曲》 《钢琴遇见红楼梦》等，被誉为“无心插柳”的钢琴王子。本科毕业于华中科技大学电气工程及其自动化专业，硕士毕业于剑桥大学核能研究中心，博士毕业于剑桥大学先进光子学与电子技术中心，Cambridge Overseas Trust 奖学金获得者。

液晶 微波毫米波 相控阵天线、超级计算机核反应堆蒙特卡洛模拟、 信息论、钢琴、混合动力汽车逆变器、核反应堆热工水力测控。

主讲课程: 本科生必修专业基础课《ECE学科前沿与进展》（32学时，2学分）,《电子科学与技术学科前沿》（32学时，2学分）

开设主讲：校公选课《钢琴表达艺术欣赏与科学探索》《赋能6G：液晶毫米波技术前沿》（32学时，2学分） - 评教得分：97.079/100

广东省茂名市第一中学.

华中科技大学 电气工程及其自动化 工学学士.

英国伯明翰大学 电子与电气工程 一级荣誉学士学位.

英国剑桥大学 核能工程 硕士.

英国剑桥大学 液晶微波毫米波电子工程 博士.

2004年 首届澳门国际青少年钢琴大赛 少年组 国际第一名.

2004年13岁举办钢琴独奏会，演奏舒伯特《流浪者幻想曲》，肖邦《平稳的行板与华丽的大波兰舞曲》，格什温《蓝色狂想曲》，格林卡《夜莺》， 李斯特-帕格尼尼练习曲 《钟》 《唐璜的回忆》等.

2009年 加入华中科技大学艺术团钢琴键盘队，

2009年 首届国际非职业钢琴比赛 青年组 国际亚军，奖金1500美元.

2009-2012年在华中科技大学【键上人生】及【青春琴缘】系列音乐会演奏《练声曲》《社员都是向阳花》《托卡塔与赋格》《诺基亚铃声变奏曲》《鸟之诗》《加勒比海盗》《忐忑》等.

2011年3月 《东方音乐精选辑》《初音未来 钢琴二次创作辑》.

2011年5月 受邀 武汉琴台音乐厅演奏自己改编的《鸟之诗》，与钢琴家沈文裕同台演出.

2013年10月 剑桥大学 Selwyn College Hall演出：《社员都是向阳花》《平湖秋月》，为女高音歌唱家伴奏《黄河怨》《康定情歌》《秋之歌》《江河水》.

2013年12月 剑桥大学Hughes Hall演出：《拉赫玛尼诺夫练声曲》《皮亚佐拉探戈Oblivion》.

2014年6月 剑桥大学Hughes Hall演出：《肖邦 英雄波罗乃兹舞曲》

2014年8月 剑桥大学Hughes Hall举办中国古典音乐会：《黄河钢琴协奏曲》《梁祝小提琴协奏曲》《彩云追月》《风居住的街道》《那就是我》《牧歌》《偶然》《踏雪寻梅》《我住长江头》《一杯美酒》《望春风》.

2014年10月 首次与剑桥大学交响乐团 Cambridge Graduate Orchestra 合作排练 萧邦第一钢琴协奏曲.

2014年11月 剑桥大学Lee Hall演出：萧邦《平稳的行板与华丽的大波兰舞曲》.

2015年1月起 担任剑桥大学Wolfson Chamber Singers （沃夫森学院室内乐合唱团）钢琴伴奏

2015年2月 剑桥大学春晚The Cambridge Chinese New Year Gala 钢琴伴奏

2015年3月 剑桥大学Lent Term Concert演奏 Arabesque No.1 (第一号阿拉贝斯克)

2016年1月 剑桥大学皮亚佐拉与肖邦作品音乐会

2016年3月 West Road Concert Hall: 在剑桥大学华乐团年度音乐会首演《人生若只如初见》

2017年1月 伦敦威斯敏斯特中央大厅 (Central Hall Westminster) 全英春晚 钢琴萨克斯合奏《秋意浓》

2018年11月 Robinson College Chapel：剑桥大学华乐团年度音乐会演奏《还珠格格钢琴组曲》

2019年1月 Cambridge Corn Exchange：剑桥大学猪年春晚演奏《红猪》当钢琴遇上萨克斯

2019年3月 剑桥大学李劲锋钢琴独奏会

2019年11月 Robinson College Chapel：剑桥大学华乐团年度音乐会演奏《风云雄霸天下 钢琴组曲》.

2019年12月 华中科技大学键盘队建队20周年校友音乐会《英雄波兰舞曲》

2022年2月 受邀在 CCTV全球爱华诗歌春晚、英国浙江会春晚、剑桥华人社区中心春晚、英国华人女性联盟元宵晚会 等钢琴演奏

2022年2月 受邀伦敦市政厅 演奏《红楼梦》《我的中国心》《铁血丹心》等，央视CGTN全程直播

2022年3月 West Road Concert Hall: 在剑桥大学华乐团年度音乐会首演《外来媳妇本地郎 钢琴组曲》

2022年6月 伦敦中国城: 受邀在英国女王登基70周年盆菜宴上斗琴《当神探夏洛克 遇上 外来媳妇本地郎》

2022年10月 伦敦St Gabriel's Pimlico: 李劲锋 个人十年作品钢琴音乐会

2024年2月 伦敦Princess Alexandra Hall, Royal Over-Seas League (ROSL): 受邀伦敦全英华中科技大学校友会与英国湖北会龙年新春联欢会演奏《青春琴缘》

2024年5月 北京国际会议中心 Beijing International Convention Center: China Microwave Week 2024中国微波周 钢琴即兴编曲演奏《微波琴缘》《微波琴语》

2024年7月 受邀阿里巴巴北京总部公益音乐会 首演李劲锋原创钢琴曲《宇称不守恒》央广网·中央广播电视总台报道

2024年11月 担任U8世界创新峰会（U8 World Innovation Summit）晚宴特邀钢琴家，即兴创作演奏《剑桥琴缘》

2025年1月受邀北京理工大学2025年新春团拜会演出，担任教职工合唱团钢琴伴奏《山楂树》《阿拉木汗》

2025年2月2日 英国皇家音乐学院The Duke's Hall（杜克斯音乐厅）：受邀伦敦【春序新声】中西对话音乐会，演奏《当珠江情满遇上神探夏洛克》《伏尔塔瓦河》《黄河钢琴协奏曲》，合唱伴奏《友谊地久天长》《灯火里的中国》，中国驻英国大使郑泽光和夫人华梅参赞出席, 人民网报道, 中国日报报道。

2017年-2024年，发行原创钢琴曲专辑：《The last minute flight》《扎心老铁》《慕尼黑车站》《钢铁银河广场》《贝克街雪茄》《光》《挽歌》《时间情话》《你是否记得》《孤勇》《梦回东山坡村》《诀别之扉》《宇称不守恒》《波粒二象性》《硅基生命》《室温超导》《太阳风暴》《幽灵粒子》《电磁静默》《誓的三重境界》《量子纠缠》等.

电子工程/核工程 论文/专著节选

[1] J. Li and D. Chu, “Liquid crystal-based enclosed coplanar waveguide phase shifter for 54–66 GHz applications,” Crystals, vol. 9, 12, 650, December 2019. doi: 10.3390/cryst9120650

[2] A. Yontem, J. Li, and D. Chu, “Imaging through a projection screen using bi-stable switchable diffusive photon sieves,” Optics Express, vol. 26, pp. 10162–10170, April 2018. doi: 10.1364/OE.26.010162

[3] J. Li, “All-optically Controlled Microwave Analog Phase Shifter with Insertion Losses Balancing,” Engineering Letters, vol. 28, no. 3, pp. 663–667, 2020.

[4] J. Li and H. Li, “Modeling 0.3 THz Coaxial Single-Mode Phase Shifter Designs in Liquid Crystals with Constitutive Loss Quantifications,” Crystals, vol. 14, 4, 364, April 2024.

[5] J. Li, “Tunability Dependence of All-Optical Liquid Crystal Delay Line on Laser Polarization and Incidence Angle,” Photonics Letters of Poland, vol. 15, no. 4, pp. 51–53, Dec. 2023. doi:10.4302/plp.v15i4.1234

[6] J. Li, “Challenges and Opportunities for Nematic Liquid Crystals in Radio Frequency and Beyond,” Crystals, vol. 12, 5, 632, April 2022. doi: 10.3390/cryst12050632

[7] J. Li, Y. Seki, K. V. Rajan, M. A. Ayu, A. H. Muhendra, S. A. Thabit, K. Kyritsis, N. Spatiotis, I. Perikos, and M. Paraskevas, “Advances in Sentiment Analysis - Techniques, Applications, and Challenges,” Book Editor: Jinfeng Li. IntechOpen, ISBN: 978-0-85014-061-3, ISSN: 2633-1403. January 2024. doi:10.5772/intechopen.111293（主编学术专著丛书）。

[8] J. Li, “Rethinking Liquid Crystal Tunable Phase Shifter Design with Inverted Microstrip Lines at 1–67 GHz by Dissipative Loss Analysis,” Electronics, vol. 12, 2, 421, January 2023. doi: 10.3390/electronics12020421

[9] J. Li and H. Li, “Symmetry Implications of a 60 GHz Inverted Microstrip Line Phase Shifter with Nematic Liquid Crystals in Diverse Packaging Boundary Conditions,” Symmetry, vol. 16, 7, 798, June 2024. doi: 10.3390/sym16070798

[10] J. Li and H. Li, “Susceptibility to Low-Frequency Breakdown in Full-Wave Models of Liquid Crystal-Coaxially-Filled Noise-Shielded Analog Phase Shifters,” Electronics, vol. 13, 23, 4792, December 2024. doi: 10.3390/electronics13234792 (入选 Feature Papers in Circuit and Signal Processing)

[11] J. Li and H. Li, “Assessing Vulnerabilities in Line Length Parameterization and the Per-Unit-Length Paradigm for Phase Modulation and Figure-of-Merit Evaluation in 60 GHz Liquid Crystal Phase Shifters,” Symmetry, vol. 16, 10, 1261, September 2024. doi: 10.3390/sym16101261

[12] J. Li, “Taking Flow Characterization to New Heights by Fiber Bragg Gratings Array,” Energies, vol. 16, 10, 4218, May 2023. doi: 10.3390/en16104218

[13] J. Li and H. Li, “Finite-element Adaptive Meshing Statistics of Liquid Crystal Coaxial Phase Shifters for mmW Electronics and THz Photonics Beyond Display: A Comparative Study,” Photonics Lett. Pol., vol. 16, no. 3, pp.40–42, October 2024. doi: 10.4302/plp.v16i3.1275

[14] J. Li, “Vulnerabilities Mapping based on OWASP-SANS: A Survey for Static Application Security Testing (SAST),” Annals of Emerging Technologies in Computing (AETiC), Print ISSN: 2516-0281, Online ISSN: 2516-029X, pp. 1-8, vol. 4, no. 3, 1st July 2020. doi: 10.33166/AETiC.2020.03.001(荣获计算新兴技术年鉴高被引文章奖: AETiC Highly Cited Article Award 2023)

[15] J. Li and H. Li, “Liquid Crystal-Filled 60 GHz Coaxially Structured Phase Shifter Design and Simulation with Enhanced Figure of Merit by Novel Permittivity-Dependent Impedance Matching,” Electronics, vol. 13, no. 3, 626, February 2024. doi: 10.3390/electronics13030626

[16] H. Plows, J. Li, M. Dahlfors, and M. Margulis, “Flow Characterisation Using Fibre Bragg Gratings and Their Potential Use in Nuclear Thermal Hydraulics Experiments,” Journal of Nuclear Engineering, vol. 4, no. 4, pp. 668–690, October 2023. doi: 10.3390/jne4040042

[17] J. Li, “From Liquid Crystal on Silicon and Liquid Crystal Reflectarray to Reconfigurable Intelligent Surfaces for Post-5G Networks,” Applied Sciences, vol. 13, 13, 7407, June 2023. doi: 10.3390/app13137407

[18] H. Li and J. Li*, “Advancing Microscale Electromagnetic Simulations for Liquid Crystal Terahertz Phase Shifters: A Diagnostic Framework for Higher-Order Mode Analysis in Closed-Source Simulators,” Micro, vol. 5, 1, 3, January 2025. doi: 10.3390/micro5010003

[19] L. Cai, H. Xu, J. Li, and D. Chu, “High figure-of-merit compact phase shifters based on liquid crystal material for 1–10 GHz applications,” Japanese Journal of Applied Physics, vol. 56, 011701, November 2017. doi: 10.7567/JJAP.56.011701

[20] J. Li, “Millimetre-wave beam steering with analog-resolution and minimised distortion based on liquid crystals tunable delay lines with enhanced signal-to-noise ratios,” Proc. SPIE, Millimetre Wave and Terahertz Sensors and Technology XIII, 115410H, September 2020. doi: 10.1117/12.2570001

[21] J. Li, “Monte Carlo Investigation of the UK’s First EPR Nuclear Reactor Startup Core using Serpent,” Energies, vol. 13, 19, 5168, October 2020. doi: 10.3390/en13195168

[22] J. Li, “Will ‘Liquid-Crystal-Based Floating-Electrode-Free Coplanar Waveguide Phase Shifter With an Additional Liquid-Crystal Layer for 28-GHz Applications’ Work?” Engineering Letters, vol. 31, no. 2, pp. 820–824, 2023.

[23] J. Li, “Rethinking Figure-of-Merits of Liquid Crystals Shielded Coplanar Waveguide Phase Shifters at 60 GHz,” J, vol. 4, pp. 444–451, August 2021. doi: 10.3390/j4030034

[24] J. Li, “An Efficient Mixed-signal Dielectric-partitioning Model of Liquid Crystals based Shielded Coplanar Waveguide for Electronically Reconfigurable Delay Lines Design,” Proc. SPIE, Integrated Optics: Design, Devices, Systems and Applications VI, vol.11775, 1177519, April 2021. doi: 10.1117/12.2593624

[25] J. Li, “Towards 76-81 GHz Scalable Phase Shifting by Folded Dual-strip Shielded Coplanar Waveguide with Liquid Crystals,” Annals of Emerging Technologies in Computing (AETiC), vol. 5, no. 4, pp. 14–22, October 2021. doi: 10.33166/AETiC.2021.04.002

[26] J. Li, “Low-loss tunable dielectrics for millimeter-wave phase shifter: from material modelling to device prototyping,” IOP Conference Series: Materials Science and Engineering, vol. 892, 012057, 2020. doi: 10.1088/1757-899x/892/1/012057

[27] J. Li, “Modelling nuclear fuel assembly with thermal-hydraulic feedback and burnup using WIMS-PANTHER-Serpent,” Journal of Physics: Conference Series, vol. 1603, 012012, 2020. doi: 10.1088/1742-6596/1603/1/012012

[28] J. Li, “Performance Limits of 433 MHz Quarter-wave Monopole Antennas due to Grounding Dimension and Conductivity,” Annals of Emerging Technologies in Computing (AETiC), vol. 6, no. 3, pp. 1–10, July 2022. doi: 10.33166/AETiC.2022.03.001

[29] J. Li, “60 GHz 0-360˚ Passive Analog Delay Line in Liquid Crystal Technology based on a Novel Conductor-backed Fully-enclosed Coplanar Waveguide,” IEEE 72nd Electronic Components and Technology Conference (ECTC), San Diego, USA, 2022, pp. 1841–1846. doi: 10.1109/ECTC51906.2022.00289 (电子封装领域国际顶会)

[30] J. Li, H. Xu, and D. Chu, “Design of liquid crystal based coplanar waveguide tunable phase shifter with no floating electrodes for 60–90 GHz applications,” 46th European Microwave Conference (EuMC), London, 2016, pp. 1047–1050. doi: 10.1109/EuMC.2016.7824526

[31] J. Li, “Wideband PCB-to-Connectors Impedance Adapters for Liquid Crystal-Based Low-Loss Phase Shifters,” 50th European Microwave Conference (EuMC), Utrecht, Netherlands, 2021, pp. 546–549. doi: 10.23919/EuMC48046.2021.9337967

[32] J. Li, “Managing 60 GHz Field Peaking of an Liquid Crystal Enclosed Coplanar Waveguide by Core Edge Shaping,” 2020 IEEE 32nd Asia-Pacific Microwave Conference (APMC), Hong Kong, 2020, pp. 403–405. doi: 10.1109/APMC47863.2020.9331555

[33] J. Li, “Optically Steerable Phased Array Enabling Technology Based on Mesogenic Azobenzene Liquid Crystals for Starlink Towards 6G,” 2020 IEEE 32nd Asia-Pacific Microwave Conference (APMC), Hong Kong, 2020, pp. 345–347. doi: 10.1109/APMC47863.2020.9331345

[34] J. Li, “Figure-of-Merits Mismatch in Liquid Crystals mmWave Phase Shifters,” IEEE 46th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), 2021. pp. 1–2. doi: 10.1109/IRMMW-THz50926.2021.9567615

[35] J. Li, “Bias Tees Integrated Liquid Crystals Inverted Microstrip Phase Shifter for Phased Array Feeds,” IEEE EPS 21st International Conference on Electronic Packaging Technology (ICEPT), Guangzhou, 2020, pp. 1–5. doi: 10.1109/ICEPT50128.2020.9202604

[36] J. Li, “60 GHz Optimised Nickel-free Gold-plated Enclosed Coplanar Waveguide Liquid Crystal Phase Shifter,” 2020 IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications (IMWS-AMP), Suzhou, China, 2020, pp. 1–3. doi: 10.1109/IMWS-AMP49156.2020.9199680

[37] J. Li, “79 GHz Meandering Enclosed-Coplanar Variable Delay Lines in Liquid Crystals Encapsulated Within Independent and Shared Cavities,” IEEE 27th International Symposium on Antennas and Propagation (ISAP), Sydney, Australia, 2022, pp. 457–458, doi: 10.1109/ISAP53582.2022.9998660 （担任分会主席）

[38] L. Cai, H. Xu, J. Li, and D. Chu, “High FoM liquid crystal based microstrip phase shifter for phased array antennas,” IEEE 21st International Symposium on Antennas and Propagation (ISAP), Okinawa, 2016, pp. 402–403.

[39] J. Li, “Design and Control Optimisation of a Novel Bypass-embedded Multilevel Multicell Inverter for Hybrid Electric Vehicle Drives,” IEEE 11th International Symposium on Power Electronics for DistributedGeneration Systems (PEDG), Dubrovnik, 2020. pp. 382–385. doi: 10.1109/PEDG48541.2020.9244313

[40] J. Li, “Hybrid Propulsion Motor Drives Model based on Multi-level Inverters with Optimised Fuel Economy,” IEEE Vehicular Power and Propulsion Conference (IEEE VPPC), Gijón, Spain, 2020, pp. 1–5. doi: 10.1109/VPPC49601.2020.9330818(电机驱动领域国际顶会)

[41] J. Li, “Novel Partially-Shielded Coplanar Waveguide with Metasurfaces for Liquid Crystals Tunable Delay Lines Beyond 67 GHz,” 2022 IEEE Conference on Antenna Measurements & Applications (IEEE CAMA), Guangzhou, China, 2022, pp. 1–4, doi: 10.1109/CAMA56352.2022.10002683

[42] J. Li, “Computational Perturbation Methods for Moderator and Doppler Temperature Coefficients in the European Pressurised Reactor Core Analysis,” 3rd IEEE International Conference on Computer, Electrical & Communication Engineering (IEEE ICCECE), Southend, 2020, pp. 201–204. doi: 10.1109/iCCECE49321.2020.9231053

[43] J. Li, “Multi-ring Subgroup Method in Characterising Highly Self-shielded Gadolinia Burnable Poison Pins for the UK EPR Nuclear Fuel Assembly,” 3rd IEEE International Conference on Computer, Electrical & Communication Engineering (IEEE ICCECE), Southend, 2020, pp. 196–200. doi: 10.1109/iCCECE49321.2020.9231157

[44] J. Li, “Performance Limits of Liquid Crystals Coplanar Phase Shifters beyond 60 GHz due to Fabrication,” IEEE International Conference on Computing, Networking, Telecommunications &Engineering Sciences Applications 2020 (IEEE CoNTESA), Tirana, Albania, 2020, pp. 21–26. doi: 10.1109/CoNTESA50436.2020.9302865

[45] J. Li, “Power Peaking, Critical Boron, and Shutdown Margin Benchmark of the UK Hinkley Point C EPR using WIMS-PANTHER Deterministic Codes,” IEEE International Conference on Computing, Networking, Telecommunications & Engineering Sciences Applications 2020 (IEEE CoNTESA), Tirana, Albania, 2020, pp. 1–4. doi: 10.1109/CoNTESA50436.2020.9302867

[46] J. Li, “Machine Learning and Digital Twinning Enabled Liquid Crystals mm-Wave Reconfigurable Devices Design and Systems Operation,” 2022 IEEE MTT-S International Microwave Workshop Series on Advanced Materials and Processes for RF and THz Applications (IMWS-AMP), Guangzhou, China, 2022, pp. 1–3. doi: 10.1109/IMWS-AMP54652.2022.10107046

[47] J. Li, “Experimental Characterization of Patterned Electrodes and Shaped Substrates for A Liquid Crystals Phase Shifter at V Band,” IEEE 15th International Conference on Microwave and Millimeter Wave Technology (ICMMT), Qingdao, China, 2023, pp. 1–3. doi: 10.1109/ICMMT58241.2023.10277064（担任分会主席）

[48] J. Li, “Design Margin of Millimeter-wave Ultra-wideband 0-180° Analog Delay Line with Insertion Loss Less Than 2 dB,” 2023 16th UK-Europe-China Workshop on Millimetre Waves and Terahertz Technologies (UCMMT), Guangzhou, China, 2023, pp. 1–3. doi: 10.1109/UCMMT58116.2023.10310430

[49] J. Li, “Dissipative Analysis of Liquid Crystal-loaded Passive Reconfigurable Transmission Line Components with Filled Vias at 60 GHz,” IEEE MTT-S International Conference on Numerical Electromagnetic and Multiphysics Modeling and Optimization (NEMO), Winnipeg, Canada, 2023, pp. 48–50. doi: 10.1109/NEMO56117.2023.10202478

[50] J. Li and H. Li, “Impedance Characterization for Liquid Crystal Tunable Coaxial Transmission Lines at 60 GHz,” 2023 Cross Strait Radio Science and Wireless Technology Conference (CSRSWTC 2023), Guilin, China, February 2024, pp. 01–03. doi: 10.1109/CSRSWTC60855.2023.10426867

[51] J. Li, “Towards Fabrication of High-tuning-range Liquid Crystals High-aspect-ratio Coplanar Waveguide Phase Shifter by LIGA, DRIE and Laser Ablation,” 2023 Cross Strait Radio Science and Wireless Technology Conference (CSRSWTC 2023), Guilin, China, February 2024, pp. 1–3. doi: 10.1109/CSRSWTC60855.2023.10427011

[52] J. Li and H. Li, “Liquid Crystal Coaxial Phase Shifter Designs at 0.3 THz,” Proceedings of the 5th China and International Young Scientist Terahertz Conference, Volume 2. Springer Proceedings in Physics, Springer Nature, July 2024, vol. 401, pp. 147–151, Print ISBN: 978-981-97-3912-7, Online ISBN: 978-981-97-3913-4. doi:10.1007/978-981-97-3913-4_28(特邀报告)

[53] J. Khatry, J. Li, M. Margulis, M. Dahlfors, J. Corre, H. Prasser, “Light Water Reactor Thermal Hydraulics Facility Development in North Wales,” 19th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-19), March 2022.(第十九届国际核反应堆热工水力大会)

[54J. Li, S. Middleburgh, I. Marshall, M. Rushton and W. Lee, “Open-access water thermal hydraulics facility development in North Wales,” Proceedings of the 17th UK Heat Transfer Conference (UKHTC 2021), April 2022.

[55] J. Li, “Optically Inspired Cryptography and Cryptanalysis: A Survey and Research Directions,” Emerging Technologies in Computing, Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering (LNICST), Springer, 2020, vol. 332, pp. 98–110. ISBN: 9783030600358. doi: 10.1007/978-3-030-60036-5_7

[56] J. Li and X. Guo, “COVID-19 Contact-tracing Apps: A Survey on the Global Deployment and Challenges,” arXiv preprint arXiv:2005.03599, 2020. （被PNAS 美国国家科学院院刊 引用, 收到 MIT Technology Review《麻省理工科技评论》采访邀请）

[57] J. Li, “Impact of laser polarization and angle of incidence on phase shifting efficacy of an all-optically addressed liquid crystal delay line at X band,” Proc. SPIE, SPIE/COS Photonics Asia, Optoelectronic Devices and Integration XII, vol.12764, 127640X, November 2023. doi: 10.1117/12.2685859

[58] J. Li and X. Guo, “Global Deployment Mappings and Challenges of Contact-tracing Apps for COVID-19,” SSRN Electronic Journal, May 2020. doi: 10.2139/ssrn.3609516 （被The Lancet Public Health《柳叶刀-公共卫生》引用）

[59] X. Guo and J. Li*, “A Novel Twitter Sentiment Analysis Model with Baseline Correlation for Financial Market Prediction with Improved Efficiency,” IEEE 6th International Conference on Social Networks Analysis, Management and Security (SNAMS), Granada, Spain, 2019, pp. 472-477. doi: 10.1109/SNAMS.2019.8931720 （担任分会主席）

J. Li, “Physics-Informed Machine Learning Assisted Liquid Crystals µWave Phase Shifters Design and Synthesis,” Emerging Technologies in Computing, Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering (LNICST), Springer Nature, 2023, vol. 538, pp. 3–13. ISBN: 9783031502149. doi: 10.1007/978-3-031-50215-6_1

[61] J. Li, “Introductory Chapter: The 2023 Sentiment Analysis Roadmap”， in: Advances in Sentiment Analysis - Techniques, Applications, and Challenges, Book Editor: Jinfeng Li. IntechOpen, ISBN: 978-0-85014-061-3, ISSN: 2633-1403. January 2024. doi:10.5772/intechopen.112276

[62] J. Li and H. Zhou, “Impact of Radial Grounding Model Granularity on Directivity of 433 MHz Monopole Antennas with Flat and Inclined Radials for ISM IoT Applications,” Annals of Emerging Technologies in Computing (AETiC), vol. 9, no. 1, pp. 44–57, January 2025. doi: 10.33166/AETiC.2025.01.003

[63] J. Li and H. Li, “Navigating Aspect Ratio Effects in Response Time Challenges of Liquid Crystal Coaxial Phase Shifters for Next-Generation mmW Communications,” IEEE 11th International Conference on Wireless Networks and Mobile Communications (WINCOM), Leeds, United Kingdom, 2024, pp. 1–5. doi: 10.1109/WINCOM62286.2024.10655435

[64] J. Li, “Demystifying Two-Dimensional Asymmetrical Grounding Impacts on Monopole Antennas at 433 MHz,” 9th IEEE International Conference on Microwaves, Communications, Antennas, Biomedical Engineering and Electronic Systems (IEEE COMCAS 2024), Tel Aviv, Israel, 2024, pp. 1–4. doi: 10.1109/COMCAS58210.2024.10666235

[65] J. Li, “80 GHz Phase Shifter in Liquid Crystal Compact Coplanar Transmission Line with Curved Bends,” IEEE 4th International Conference on Electrical, Computer and Energy Technologies (ICECET), Sydney, Australia, 2024, pp. 1–4. doi: 10.1109/ICECET61485.2024.10698101

[66] J. Li and H. Li, “Effective Dielectric Constant Benchmark of 60 GHz Liquid Crystal-Filled Coaxial Delay Line,” 2024 IEEE International Conference on Computational Electromagnetics (ICCEM), Nanjing, China, 2024, pp. 1–3. doi: 10.1109/ICCEM60619.2024.10558870(计算电磁学领域国际旗舰会议)

[67] H. Plows, M. Margulis, and J. Li, “3D Imaging of Phase Structures Using Fibre Bragg Grating Grid Sensors,” 20th International Topical Meeting on Nuclear Reactor Thermal Hydraulics (NURETH-20), American Nuclear Society (ANS), Washington, D.C., August 2023, pp. 2944–2944. doi: 10.13182/NURETH20-40208 (第二十届国际核反应堆热工水力大会)

[68] J. Li and H. Li, “Computationally Sampling Surface and Volume Current Densities of Liquid Crystal Non-Planar Phase Shifters for Low-Loss 5G IoT and 6G AIoT,” 2024 IEEE International Conference on Omni-layer Intelligent Systems (IEEE COINS), London, United Kingdom, 2024, pp. 1–6. doi: 10.1109/COINS61597.2024.10622149（担任分会主席）

[69] J. Li, “Roadmap of 6G Reconfigurable Intelligent Surfaces with Nematic Liquid Crystals: Fundamentals, State-of-the-Art, and Challenges,” IEEE/IFAC10th International Conference on Control, Decision and Information Technologies (CoDIT 2024), Vallette, Malta, 2024, pp. 802–807. doi:10.1109/CoDIT62066.2024.10708423（担任分会主席）

[70] J. Li and H. Li, “Frequency Ripples Reduction in Differential Delay Time of Liquid Crystals Coaxial Delay Lines,” IEEE AP-S/URSI 2024, Florence, Italy, 2024, pp. 154–155. doi: 10.23919/INC-USNC-URSI61303.2024.10632292 (IEEE天线与传播学会旗舰会议)

[71] J. Li, H. Li, Y. Xiao, P. Jiang, S. Wang, and Z. Guo, “Generalization of Impedance Characterization Methods for Liquid Crystal-Embedded TunableTransmission Lines and Applied Study into Guard Band Redundancy Evaluation,” Engineering Letters, vol. 33, no. 2, pp. 374–381, February 2025.

[72] 李劲锋，李浩荣，基于液晶同轴线的微波毫米波可调移相器自动设计系统V1.0，中华人民共和国国家版权局 计算机软件著作权，授权号：2025SR0118259，授权日期：2025年1月17日

[73] 李浩荣，李劲锋，向列型液晶太赫兹同轴线去高次模自动设计程序V1.0, 中华人民共和国国家版权局 计算机软件著作权，授权号：2025SR0259121, 授权日期：2025年2月14日

[74] J. Li and H. Li, “Liquid Crystal Technology for IoT and Beyond: Advancements and Future Directions,” 2025 IEEE International Conference on Control, Automation, and Instrumentation (IC2AI), Beirut, Lebanon, 2025, pp. 1–5. doi: 10.1109/IC2AI62984.2025.10932274

[75] J. Li and H. Li, “Passive-active crosstalk beyond low-frequency breakdown in mathematical-physical models of liquid crystal phase shifters at low-frequency applications,” IET Conference Proceedings, vol. 2024, 30, pp. 592–596, January 2025. doi: 10.1049/icp.2025.0315(英国工程技术协会IET国际会议最佳论文奖)

[76] J.Li and H. Li, “FEM Solution Database for Liquid Crystal GHz and THz Coaxial Phase Shifters in Digital Twinning,” 2024 IEEE Virtual Conference on Communications (VCC), NY, USA, March 2025, pp. 1–5. doi: 10.1109/VCC63113.2024.10914476 (担任分会主席)