英文期刊论文： 

1.Guangyin Shi, Zhiqiang Li*, Zhiwei Dai, Zhongmao Li, Zhe Hou and Lu Liu, “An X-Band 6-bit Active Vector-Modulated Phase Shifter With 0.29° rms Phase Error Using Linearization Control Technique,” IEEE Microwave and Wireless Technology Letters, vol. 33, no. 10, pp. 1482-1485, Oct. 2023, doi: 10.1109/LMWT.2023.3301516. （通讯作者，领域顶刊）

2.Ma, Xiaoning, Qinzhi Xu, Chenghan Wang, He Cao, Jianyun Liu, Daoqing Zhang, and Zhiqiang Li， "An Electrical-Thermal Co-Simulation Model of Chiplet Heterogeneous Integration Systems,"  IEEE Transactions on Very Large Scale Integration (VLSI) Systems, vol. 32, no. 10, pp. 1769-1781, Oct. 2024, doi: 10.1109/TVLSI.2024.3430498.（通讯作者，领域顶刊）

3.Qing Zhang, Yuhang Zhang, Rui Chen, Wei Lu, Huajie Huang, Zhiqiang Li, and Yongfu Li, "pFed-Litho: Lithography Modeling With a Personalized Federated Learning Based Framework,"  IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, doi: 10.1109/TCAD.2024.3513264. （通讯作者，领域顶刊）

4.Ma, Yue, Jinshun Bi, Biyao Zhao, Linjie Fan, Jianjian Wang, Gangping Yan, Ziming Xu, Zhiqiang Li，"Total Ionizing Dose Effects on DC/RF Performances of Emerging Vertical Back-Gate CMOS Platform,"  IEEE Transactions on Device and Materials Reliability, doi: 10.1109/TDMR.2024.3488750. （通讯作者，领域顶刊）

5.Yin, Minghui, Haitao Xu, Yunxia You, Ningfei Gao, Weihua Zhang, Hongwei Liu, Huanhuan Zhou, Chen Wang, Lian-Mao Peng, and Zhiqiang Li， Wafer-scale carbon-based CMOS PDK compatible with silicon-based VLSI design flow. Nano Research. 17, 7557–7566 (2024). https://doi.org/10.1007/s12274-024-6583-8. （通讯作者，领域顶刊）

6.  Yexi Song，Kai Kang，Yin Tian，Yunqiu Wu，Zhiqiang Li，A Hybrid Integrated High-Gain Antenna With an On-Chip Radiator Backed by Off-Chip Ground for System-on-Chip Applications，IEEE Transactions on Components, Packaging and Manufacturing Technology. Part C. Manufacturing，2016.12.16，7（1）：114~122

7.M. Qin, Z. Li, P. Liu, L. Liao, Z. Li and X. Qiu, "A Review of On-Chip Adjustable RF Bandpass Filters: Adjustable On-Chip Filters,"  IEEE Microwave Magazine, vol. 25, no. 1, pp. 14-36, Jan. 2024, doi: 10.1109/MMM.2023.3321226.

8.L. Liao, Z. Li, M. Qin, P. Liu, X. Qiu and Z. Li, "A Review of Nonmultilayer Planar Crossovers: Device for Transmission and Isolation of Multiple Signals in a Planar Configuration,"  IEEE Microwave Magazine, vol. 25, no. 8, pp. 16-35, Aug. 2024, doi: 10.1109/MMM.2024.3356428.

9. Chenghan Wang, Qinzhi Xu, Chuanjun Nie, He Cao, Jianyun Liu, Daoqing Zhang and Zhiqiang Li, "A Multiscale Anisotropic Thermal Model of Chiplet Heterogeneous Integration System,"  IEEE Transactions on Very Large Scale Integration (VLSI) Systems, vol. 32, no. 1, pp. 178-189, Jan. 2024, doi: 10.1109/TVLSI.2023.3321933.

10. X. Tang, Z. Li, L. Zeng, H. Zhou, X. Cheng and Z. Yao, "Device Modeling Based on Cost-Sensitive Densely Connected Deep Neural Networks,"  IEEE Journal of the Electron Devices Society, vol. 12, pp. 619-626, 2024, doi: 10.1109/JEDS.2024.3447032.

国际会议论文：

[1] P. Mu, T. Cui, L. Xu, K. Luo, Z. Li and Z. Wu, "A Finite Element Framework for Solving the Density-Gradient Model," 2024 International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), San Jose, CA, USA, 2024, pp. 01-04, doi: 10.1109/SISPAD62626.2024.10732921. （通讯作者，领域顶会）

[2] Zemeng Feng, Ziyi Hu1, Tong Yu1, Panpan Lai, Rui Ge, Hua Shao, Dashan Shang, Zhiqiang Li, Kui Xu, Junjie Li1, Rui Chen1, and Ling Li, First large-scale (68×25×5 nm3) atomistic modeling for accurate and efficient etching process based on machine learning molecular dynamics (MLMD), IEEE IEDM 2024.

[3] Zexin Su, Chang Liu, Zhe Chen, Zhiqiang Li, Guangyin Shi, Qian Luo, Jixin Chen, Wang Ling Goh, Zhengsheng Han, and Bo Li, A PUF-Integrated Power Amplifier with Harmonic Tunable Matching Network-Controlled Spectral Regrowth Technique for RF Fingerprinting in IoT, IEEE ASSCC 2024

[4] Yanbin Xiao, Quan Li, Zhiqiang Li*, Yu Liu, Haiying Zhang, A Wide-Band High-efficiency Envelope Tracking Supply Modulator for Cellular Front-End Module, 2017 IEEE International Symposium on Radio-Frequency Integration Technology，2017.8.30-2017.9.1.

[5] Jianou Huang, Qiang Wang, Zhiqiang Li*, Lina Yang,Novel Method for Millimeter Wave Phase Shifter Design using Loaded Transmission Line, Proceedings of the Asia-Pacific Microwave Conference, 2016.12

[6] Yanbin Xiao, Chunqi Yao, Yu Liu, Zhiqiang Li* and Haiying Zhang，A Power Amplifier with Envelope Tracking used for Cellular Front-End Module based on 0.18μm SOI CMOS Process，2015 IEEE International Symposium on Radio-Frequency Integration Technology，160-162

[7] Gao Zhendong，Li Zhiqiang，Zhang Haiying，A6-9GHz Ultra-Wideband CMOS Differential LNA for China UWB standard，2010 IEEE International Conference on Ultra-Wideband (ICUWB2010)，2010.9.20-2010.9.23

授权中国发明专利21项： 

1.微带开关型移相器及应用其的移相模块，专利号：ZL201510854451.6，PCT/CN2015/095983，李志强，黄健欧，张海英，授权日： 2018-5-8

2.一种自动对齐的包络跟踪功率放大器结构，专利号：ZL201510219484.3，PCT/CN2015/077967，李志强，萧延彬，刘昱，张海英，授权日：2018-3-30

3.一种应用于变频收发机中的频率综合器，专利号：ZL201410730121.1，李志强，王硕，张海英，授权日：2018-11-2

4.一种用于炊事车的无线智能监控系统和方法，专利号：ZL201510106359.1，杨涵，张学艳，赵健雄，李志强，杨浩，张海英，授权日：2018-5-8

5.一种基于负反馈的功率放大器结构，专利号：201510219482.4，刘昱，萧延彬，李志强，张海英，授权日：2018-9-4

6.一种功率放大电路，专利号：ZL201510214196.9，李志强 姚春琦 萧延彬 张海英，授权日：2017-11-14

7.高频DC-DC降压拓扑和集成芯片以及相关系统，专利号：ZL201410552905，李志强，张雪，萧延彬，张海英，申请日：2014-10-17 授权日：2017-04-05

8.一种包络跟踪电源和包络跟踪射频功率放大器，专利号：ZL201410553070.X，李志强 萧延彬 张海英，授权日：2017-09-01

9.一种运算放大器电路、运算放大器以及包络跟随电源，专利号：ZL201410553066.3，李志强 萧延彬 张雪 张海英，授权日：2017-09-29

10. 一种用于WiFi功率放大器的集成式四路功率合成器，专利号：ZL201410053943.0，李志强，张海英，申请日：2014-02-18，授权日：2017-02-08

11. 一种用于WiFi功率放大器的集成式两路功率合成器，专利号：ZL201410054150.0，李志强，张海英，申请日：2014-02-18，授权日：2017-02-08

12. 一种用于毫米波通信的57GHz压控振荡器，专利号： ZL201010512276.X，李志强，杨浩，张海英，申请日：2010-10-19，授权日：2014.6.18

13. 一种用于毫米波通信的40GHz压控振荡器，专利号：ZL201010511672.0，李志强，杨浩，张海英，申请日：2010-10-19，授权日：2014.4.2

14. 一种用于双载波OFDM UWB的频率综合器，专利号：ZL200810118971.0，李志强，张海英， 申请日：2008-08-27   授权日：2012-07-04

15. 一用于OFDM UWB的6至8.2GHz五频带频率综合器，专利号：ZL200710304249.1，李志强，张海英，申请日：2007-12-26   授权日：2012-06-06

16. 用于OFDM UWB的六频带频率综合器，专利号： ZL200710304251.9，李志强，张海英，申请日：2007-12-26   授权日：2010-12-15

17. 用于OFDM UWB的6.3至8.5GHz五频带频率综合器，专利号：ZL200710304250.4，李志强，张海英，申请日：2007-12-26   授权日：2012-04-11

18. 一种用于OFDM UWB的频率综合器，专利号：200810118970.6，李志强;张海英，申请日：2008-08-27，授权日：2012-08-22

19. 一种无线收发装置，专利号：ZL201310030366.9，张海英，王小松，李志强，申请日：2013-01-25   授权日：2015-09-23

20. 一种产生双频信号的毫米波振荡器，专利号：ZL201310616103.6，刘昱，李仲茂，樊晓华，李志强，张海英，申请日：2013-11-27   授权日：2016-08-17

21. 一种宽锁定范围的注入锁定分频器，专利号：ZL201310613156.2，刘昱，张健，樊晓华，李志强，张海英，申请日：2013-11-27   授权日：2016-06-01

参与起草国家标准1项

标准号：GB/T 34984-2017

中文标准名称：信息技术 系统间远程通信和信息交换 局域网和城域网 超高速无线个域网的媒体访问控制和物理层规范

发布日期 2017-11-01 实施日期 2018-05-01

标准主要起草人之一