一、教育背景及工作经历

2022.08-至今，厦门大学，助理教授

2022.04-2022.08，嘉庚创新实验室，助理研究员

2018.09-2021.12，挪威Norfab微纳制造中心，全职研究员

2017.09-2022.01，挪威东南大学，应用微纳系统，博士

2014.09-2017.07，中北大学，电子科学与技术，硕士

2007.09-2011.07，中北大学，微电子学，学士 

二、研究领域及学术奖励

高精度海洋传感器、应用微纳系统与水下无人系统

2020年度国家优秀自费留学生奖学金

三、代表性科研项目

1. 国家自然科学基金青年项目，主持【国家级】

2. 山西省自然科学基金，主持【省级】

四、招生信息【技术研究工程化与产业化当先，欢迎报考】

1. 欢迎测控技术与仪器、智能仪器、微电子、电子科学与技术、通信工程等专业的研究生加盟

2. 欢迎本科生加入团队开展科创活动，包括：互联网+大赛、机器人大赛、创新创业大赛【每届2名】

五、近期发表的代表性论文

已发表SCI论文26篇，第一作者总IF=70.8。

1. Zhang, Z.; Martinsen, T.; Liu, G.; Tayyib, M.; Cui, D.; de Boer, M. J.; Karlsen, F.; Jakobsen, H.; Xue, C.; Wang, K. Ultralow Broadband Reflectivity in Black Silicon via Synergy between Hierarchical Texture and Specific-Size Au Nanoparticles. Adv. Opt. Mater. 2020, 8 (19). (IF=9.9，一区，Top期刊) 

2. Zhang, Z.; Du, K.; Chen, X.; Xue, C.; Wang, K. An Air-Cushion Triboelectric Nanogenerator Integrated with Stretchable Electrode for Human-Motion Energy Harvesting and Monitoring. Nano Energy 2018, 53, 108–115. (IF=17.9，一区，Top期刊) 

3. Zhang, Z.; Wang, Y.; Anders, P.; Hansen, S.; Du, K.; Robert, K.; Liu, G.; Karlsen, F.; Nilsen, O.; Xue, C.; et al. Black Silicon with Order-Disordered Structures for Enhanced Light Trapping and Photothermic Conversion. Nano Energy 2019, 65, 103992. (IF=17.9，一区，Top期刊) 

4. Zhang, Z.; He, J.; Wen, T.; Zhai, C.; Han, J.; Mu, J.; Jia, W. Magnetically Levitated-Triboelectric Nanogenerator as a Self-Powered Vibration Monitoring Sensor. Nano Energy 2017, 33, 88–97. (IF=17.9，一区，Top期刊)

5. Zengxing, Z.; Jian, H. E.; Jianqiang, H. A. N.; Hongyan, X. U.; Jiliang, M. U.; Tao, W. E. N.; Dawei, W.; Zhumei, T.; Zetian, C.; Chenyang, X. U. E. Magnetically Levitated / Piezoelectric / Triboelectric Hybrid Generator as a Power Supply for the Temperature Sensor. Sci. China Technol. Sci 2017, 60, 1068–1074. (IF=3.6，二区)

6. Zhang, Z.; Liu, G.; Wang, K. Fabrication of Needle-like Silicon Nanowires by Using a Nanoparticles-Assisted Bosch Process for Both High Hydrophobicity and Anti-Reflection. Micromachines 2021, 12 (9). (IF=3.6，三区)

7. Zhang, W.; Hao, C.; Zhang, Z.; Yang, S.; Peng, J.; Wu, B.; Xue, X.; Zang, J.; Chen, X.; Yang, H.; Song, D.; Xue, C.; Zhang, Z.; Wang, R. Vector High-Resolution Marine Turbulence Sensor Based on a MEMS Bionic Cilium-Shaped Structure. IEEE Sens. J. 2021, 21 (7), 8741–8750. (IF=3.3，二区)

8. Zhou, C.; Zang, J.; Xue, C.; Ma, Y.; Hua, X.; Gao, R.; Zhang, Z.; Li, B.; Zhang, Z. Design of a Novel Medical Acoustic Sensor Based on MEMS Bionic Fish Ear Structure. Micromachines 2022, 13 (2). (IF=3.6，三区)

9. Wang, Q.; Zhao, L.; Yang, T.; Liao, Z.; Xue, X.; Wu, B.; Zhang, W.; Zang, J.; Cui, D.; Zhang, Z.; Xue, C. A Mathematical Model of a Piezoelectric Micro- Machined Hydrophone with Simulation and Experimental Validation. IEEE Sens. J. 2021, 21 (12), 13364–13372. (IF=3.3，二区)

10. Fan, Z.; Cui, D.; Zhang, Z.; Zhao, Z.; Chen, H.; Fan, Y.; Li, P.; Zhang, Z.; Xue, C.; Yan, S. Recent Progress of Black Silicon: From Fabrications to Applications. Nanomaterials 2021, 11 (1), 1–26. (IF=5.0，二区)

11. Li, Y.; Zhang, Z.; Chen, Y.; Chen, H.; Fan, Y.; Li, Y. Facile Synthesis of a Ni-Based NiCo2O4-PANI Composite for Ultrahigh Specific Capacitance. Appl. Surf. Sci 2019, 144646. (IF=6.7，一区，Top期刊)

12. Li, Y.; Hou, X.; Zhang, Z.; Hai, Z.; Xu, H.; Cui, D.; Zhuiykov, S.; Xue, C. NiCo2O4 Particles with Diamond-Shaped Hexahedron Structure for High-Performance Supercapacitors. Appl. Surf. Sci 2018, 436, 242–251. (IF=6.7，一区，Top期刊)

13. Bin, W.; Zengxing, Z.; Xiaobin, X.; Congcong, H.; Ruiyu, B.; Qiang, W.; Chenyang, X. A stretchable triboelectric generator with coplanar integration design of energy harvesting and strain sensing. Sci. China Technol. Sci 2022, 65, 221–230. (IF=3.6，二区)

14. Xiaobin, X.; Zengxing, Z.; Bin, W.; Shanshan, H.; Qiang, W.; Wenjun, Z.; Ruiyu, B.; Juan, C.; Yongqiu, Z.; Chenyang, X. Coil-levitated hybrid generator for mechanical energy harvesting and wireless temperature and vibration monitoring. Sci. China Technol. Sci 2021, 64, 1325–1334. (IF=3.6，二区)

15. Yang, T.; Wang, Q.; Zhang, Z.; Liao, Z.; Zhao, Y.; Li, Y.; Zang, J.; Gao, R.; Cui, D.; Xue, C. Design and Implementation of 6 × 6 Array Piezoelectric AlN Hydrophone with High Sensitivity. IEEE Sens. J. 2021, 21 (23), 26615–26623. (IF=3.3，二区)

16. Hao, C.; He, J.; Zhang, Z.; Yuan, Y.; Chou, X.; Xue, C. A Pendulum Hybrid Generator for Water Wave Energy Harvesting and Hydrophone-Based Wireless Sensing. AIP Adv. 2020, 10. (IF=1.5，三区)

17. He S.; Zhang Z.; Zhai C.; Xue X.; Yang Z.; Zheng Y.; Cui D.; Xue C. Triboelectric Harvesting by a Dual-Tip Peak Power Multiplier under Airtight Condition. Energy Technol 2020. (IF=3.6，三区)

18. Wang, Y.; Xue, C.; Zhang, Z.; Zheng, H.; Zhang, W.; Yan, S. Tunable Optical Analog to Electromagnetically Induced Transparency in Graphene-Ring Resonators System. Sci. Rep 2016, 1–7. (IF=4.37，三区)

19. Tian, Z.; He, J.; Chen, X.; Zhang, Z.; Wen, T.; Zhai, C.; Han, J. Performance-Boosted Triboelectric Textile for Harvesting Human Motion Energy. Nano Energy 2017, 39, 562–570. (IF=17.9，一区，Top期刊)

20. He, J.; Wen, T.; Qian, S.; Zhang, Z.; Tian, Z.; Zhu, J.; Mu, J. Triboelectric-Piezoelectric-Electromagnetic Hybrid Nanogenerator for High-efficient Vibration Energy Harvesting and Self-Powered Wireless Monitoring System. Nano Energy 2018, 43, 326–339. (IF=17.9，一区，Top期刊)

21. Zhai, C.; Chou, X.; He, J.; Song, L.; Zhang, Z.; Wen, T.; Tian, Z. An Electrostatic Discharge Based Needle-to-Needle Booster for Dramatic Performance Enhancement of Triboelectric Nanogenerators. Appl. Energy 2018, 0–1. (IF=9.7，一区，Top期刊)

22. Hai, Z.; Gao, L.; Zhang, Q.; Xu, H.; Cui, D.; Zhang, Z.; Tsoukalas, D.; Tang, J.; Yan, S.; Xue, C. Facile Synthesis of Core – Shell Structured PANI-Co3O4 Nanocomposites with Superior Electrochemical Performance in Supercapacitors. Appl. Surf. Sci 2016, 361, 57–62. (IF=6.7，一区，Top期刊)

23. Li, Y.; Hai, Z.; Hou, X.; Xu, H.; Zhang, Z.; Cui, D.; Xue, C.; Zhang, B. Self-Assembly of 3D Fennel-Like Co3O4 with Thirty-Six Surfaces for High Performance Supercapacitor. J. Nanomater 2017. (IF=1.57，三区)

24. Tian, Z.; He, J.; Chen, X.; Wen, T.; Zhai, C.; Zhang, Z.; Cho, J.; Chou, X.; Xue, C. Core–shell coaxially structured triboelectric nanogenerator for energy harvesting and motion sensing. RSC Adv 2018, 8, 2950–2957. (IF=3.16，三区)

25. Chen, X.; He, J.; Song, L.; Zhang, Z.; Tian, Z.; Wen, T.; Zhai, C.; Chen, Y.; Cho, J.; Chen, X.; et al. Flexible One-Structure Arched Triboelectric Nanogenerator Based on Common Electrode for High Efficiency Energy Harvesting and Self-Powered Motion Sensing. AIP Adv 2018, 045022. (IF=1.5，三区)

26. Wen T.; He J.; Zhang Z.; Tian Z.; Mu J.; Han J.; Chou X.; Xue C. Electromagnetic-triboeletric hybridized generator based on magnetic levitation for scavenging biomechanical energy. Acta Physica Sinica 2017, 66, 228401. (IF=0.77，三区)

专利成果

1. 薛晨阳、何剑、张增星、丑修建、张文栋、穆继亮、王永华、王大为、温涛，一种转动环境下同轴反向型电磁式发电机，CN106655620A

2. 穆继亮，何  剑，张增星，王大为，韩建强，丑修建，薛晨阳，张文栋，线圈悬浮型振动驱动电磁式能量采集器，ZL201610243435.8

3. 薛晨阳，何剑，张增星，穆继亮，韩建强，丑修建，张文栋，磁体阵列平面转动式能量采集器，CN105846642A

4. 薛晨阳、丑修建、穆继亮、何剑、韩建强、张增星、王大为、王二伟、温涛，一种煤机装备无线无源监测系统，ZL 201610695303.9

5. 闫树斌，韩建强，何  剑，侯晓娟，穆继亮，薛晨阳，丑修建，张文栋，磁铁悬浮型振动驱动电磁式能量采集器，CN201610243462.5

6. 薛晨阳、张国军、何常德、王任鑫、韩建强、何剑、穆继亮、年夫顺、张增星、王大为、田竹梅，基于MEMS技术的全海深湍流混合矩阵型剖面观测系统，ZL 201610573834.0

7. 何剑、薛晨阳、丑修建、穆继亮、韩建强、张文栋、王二伟、张增星、温涛、胡磊，摩擦-压电-磁电复合式三维空间多自由度微能源采集器，ZL201510781913.6

8. 张增星、刘丹、薛晨阳，一种海洋多参数集成测试装置，ZL202121268944.9

9. 张增星、刘丹、薛晨阳、高瑞，一种MEMS压阻式压力传感器，ZL202122838774X

10. 张增星、刘丹、薛晨阳、高瑞，一种柔性固液耦合压力传感器封装，ZL2021228377748