个人简介：

张增星，1988年生，河南濮阳人，厦门大学助理教授，福建省第九批“百人计划”境外引进创新个人，获批海外优秀博士后引才专项，福建省境外引进B类人才，国家优秀自费留学生奖学金获得者，厦门市高层次留学人才，入选山西省创新人才团队，中国海洋工程咨询协会委员。作为负责人主持福建省百人计划人才项目、嘉庚创新实验室“卡脖子”关键核心技术项目子课题、国家自然科学基金项目、国家人社部留学创业启动重点项目、国家重点研发计划子任务、海南省重点研发计划子课题、厦门市海洋局海洋科技成果转化与产业化示范项目子课题、山西省青年科学基金等10余项，总经费1200余万元；作为技术负责人承担基金委重大仪器研制项目、装发快速支持、军科委创新特区、横向委托类项目等7项。已发表传感器相关高水平SCI论文50余篇，JCR-Q1区15篇，第一/通讯作者的总影响因子200+，他引1500余次；已申请海洋传感与集成仪器直接相关国家专利50余项，已获授权20余项；是AFM、AOM、IEEE sensor journal、Nano Energy、ACS Applied Materials & Interfaces等期刊通讯评审人。

教育和工作经历

●2017/09-2022/02，挪威东南大学，博士生

●2017/09-2020/12，挪威东南大学USN MST-lab，博士研究员

●2022/04-至今，嘉庚创新实验室，助理研究员（双聘）

●2022/08-至今，厦门大学，助理教授

●2024/06-至今，厦门大学，博士后（在职）

学生培养

●09/2024：中国国际大学生创新大赛，山西赛区省金奖，指导教师

●09/2024：中国国际大学生创新大赛，山西赛区省金奖，指导教师

●11/2024：中国国际大学生创新大赛（2024）,福建省银奖，指导教师

●06/2023：第十届中国研究生能源装备创新设计大赛，能源装备创新设计大赛一等奖，指导教师

●06/2023：第十八届中国研究生电子设计竞赛华东赛区，一等奖，指导教师

●2020年就职后，已独立和联合培养10余名硕士、博士毕业生，继续国内外知名高校、实验室进行博士深造和博士后工作，就职于高校、航天科工、中电科、中航工业、中船重工系研究所/公司、华为、小米等行业头部企业

●在读硕博士研究生9人

研究与招生方向

●海洋温盐深传感器与集成仪器、高温高压（石英谐振式、溅射金属膜式）压力传感器、电化学表面调控与金属合金外延增材制造、应用微纳与水下无人平台系统

●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

●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2~4名】

研究成果（部分）：

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，中科院一区，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，中科院一区，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，中科院一区，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，中科院一区，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，中科院二区)

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，中科院三区)

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，中科院二区)

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，中科院三区)

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，中科院二区)

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，中科院二区)

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，中科院一区，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，中科院一区，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，中科院二区)

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，中科院二区)

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，中科院二区)

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，中科院三区)

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，中科院三区)

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，中科院三区)

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，中科院一区，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，中科院一区，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，中科院一区，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，中科院一区，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，中科院三区)

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，中科院三区)

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，中科院三区)

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，中科院三区)

27. Zhang W, Yao B, Zhang Z*（通讯作者）, Jing J, Xu Y, Zhao Z, , Xue C*（通讯作者）, Tian Z*（通讯作者）, Dual-mode AT-cut quartz resonant pressure sensor for wide pressure and temperature measurement ranges, Sensors and Actuators A: Physical, 中科院2区，Accepted，2024,11.

28. Zhang W, Zhang Z*（通讯作者）, Yao B, Jing J, Xu Y, Gao L, Xue C*（通讯作者）, Tian Z*（通讯作者）, High-density interwoven pipeline leak detection with high-sensitivity and high-resolution quartz pressure transducer, Mechanical Systems and Signal Processing, 中科院1区Top期刊, Online, 2024,11.

29. Zhang W, Zhang Z*（通讯作者）, Yao B, Jing J, Xu Y, Gao L, Xue C*（通讯作者）, Tian Z*（通讯作者）, A Masterpiece of Superior Crystals: Quartz Resonant Pressure Sensor—A Review[J], IEEE Sensors Journal, 中科院2区, 2024; 24(9).

30. Zhang W, Zhang Z*（通讯作者）, Xu Y, Yao B, Jing J, Hai Z, Xue C*（通讯作者）, Tian Z*（通讯作者）, A Stress-Dispersed MEMS Bionic Turbulence Sensor with Enhanced Reliability[J], IEEE Sensors Journal, 中科院2区, 2024; 24(22).

31. Zhao Z, Wang Y, Zhang Y, Liu D, Zhang Z*（通讯作者）, and Xue C*（通讯作者）. Deep and weak ultraviolet photodetection on micro-nano textured black silicon with Al2O3 Film [J]. IEEE Sensors Journal, 中科院2区, 2024; 24(12):19013-19020.

32. Zhao Z, Zhang Z*（通讯作者）, Guo R, Shi W, Zhang Q, Guo Y, Wang Y, Liu D, and Xue C*（通讯作者）. Enhanced photo-thermoelectric detection in black silicon with chimney-like texture [J]. Materials Today Communications, 中科院3区, 2024; 40, 109723.

33. Zheng Y*（通讯作者）, Liu T, Cui J*（通讯作者）, Zhang Z*（通讯作者）, Du C, Gao X, Xue C, High performance triboelectric nanogenerator with needle tips discharge for gas detection applications[J]. Sensors and Actuators A: Physical, 中科院2区，2023; 11(46):13.

34. Yang Z, Duan Q, Zang J, et al, Zhang Z*（通讯作者）, Xue C*（通讯作者）, Gao L*（通讯作者）. Boron nitride-enabled printing of a highly sensitive and flexible iontronic pressure sensing system for spatial mapping[J]. Microsystems & Nanoengineering, 2023; 9(1): 68. 中科院1区

35. Fraunhofer-type absorption lines from a submerged Cu target by long-pulse laser-induced breakdown spectroscopy: toward non-gated detection[J]. Journal of analytical atomic spectrometry. 2023; 38(10):1908. 中科院2区

26. Yao B, Xu Y, Jing J, Zhang W, Guo Y, Zhang Z*（通讯作者）, Zhang S, Liu J, Xue C*（通讯作者）, Comparison and Verification of Three Algorithms for Accuracy Improvement of Quartz Resonant Pressure Sensors[J]. Micromachines. 2024; 15(1):23.中科院3区

37. Guo Y, Zhang Z*（通讯作者）, Yao B, Chai J, Zhang S, Liu J, Zhao Z, Xue C*（通讯作者）. Fabrication and Performance of a Ta2O5 Thin Film pH Sensor Manufactured Using MEMS Processes[J]. Sensors. 2023; 23(13):6061. 中科院3区

38. Z Zhao, Z Zhang*（通讯作者）, J Jing, R Gao, Z Liao, W Zhang, G Liu, Y Wang, K Wang, C Xue*（通讯作者）; Black silicon for near-infrared and ultraviolet photodetection: A review[J]. APL Mater 1 February, 2023;11 (2): 021107.中科院3区

39. X Yan, Z Zhang*（通讯作者）, O Wei, R Gao, C Jian, Z Xing, C Xue*（通讯作者）; A Fully 3D-printed Piezoresistive Bionic Seal Whisker Integrating Multiple Liquid Metal Tunnels for Enhanced Sensitivity in Hydrodynamic Flow Sensing[J]. IEEE Sensors Journal, 中科院2区, 2025; 25(7):10811 - 10819.

40. S Zhang, Z Zhang*（通讯作者）, Dynamic Testing and Compensation for Marine Temperature Sensors Based on Fireworks Algorithm. IEEE Sensors Journal, 中科院2区

41. J Liu, Z Zhang*（通讯作者）, A board-level temperature compensation method for precise seawater conductivity measurement. Sensors and Actuators A: Physical, 中科院2区

42. Y Guo, Z Zhang*（通讯作者）, Advanced Approaches to Immersion Nondestructive Measurements of Ionic Conductivity Gradients in Multi-phase Aqueous Environments – A Review. IEEE Sensors Journal, 中科院2区

43. Y Guo, Z Zhang*（通讯作者）, Enhanced Ion Conductivity Detection Utilizing Superhydrophilic Cauliflower-like Pt Black Electrodes Prepared via Ultrasonic Electrodeposition. Science China-Materials，中科院1区

承担项目：

1.国家自然科学基金青年基金，纵向项目，主持人

2.山西省自然科学基金，纵向项目，主持人

3.海南省重点研发计划子课题，深海探测用 MEMS 二维湍流传感器及系统研究，纵向项目，主持人

4.厦门市科技局海洋科技成果转化与产业化示范项目子课题，基于海洋空间信息与水文数据的海洋数字经济产业化研究与应用，纵向项目，主持人

5.福建省第九批“百人计划”境外人才引进，人才项目，主持人

6.国家人社部留学创业启动重点项目，高精度石英谐振式压力传感器及应用，纵向项目，主持人

7.国家重点研发计划，仿神经丘感算一体技术及微压流场传感阵列，纵向项目，子课题负责人

8.嘉庚创新实验室“卡脖子”关键核心技术项目，面向万米深海应用的高精度温盐深传感仪器，纵向项目，子课题负责人

9.崂山国家实验室，多参数传感协同观测系统集成（电导率），纵向项目，子课题负责人

10.崂山国家实验室，XXX研制与应用，纵向项目，子任务负责人

11.山西省科技创新人才团队专项，人才项目，子课题负责人

12.三电极式电导池技术研究，高精度温盐深传感模块研发等企业横向委托项目5项，主持人

学术奖励及学术兼职：

1.2020年度国家优秀自费留学生奖学金

2.2022年，厦门市引进高层次留学人才

3.2023年，仪器仪表学会技术发明一等奖

4.2024年，福建省高层次境外引进B类人才

5.2024年，中国海洋工程咨询协会委员

6.2024年，福建省安防技术协会专家库专家