张宇
教授
所属院部: 海洋研究院
访问次数:
基本信息
  • 教师英文名称:
    Yu Zhang
  • 教师拼音名称:
    zhang yu
  • 入职时间:
    2017-03-07
  • 所在单位:
    海洋研究院/集成电路学院
  • 学历:
    研究生(博士)毕业
  • 性别:
  • 学位:
    工学博士学位
  • 在职信息:
    在职
  • 毕业院校:
    山东大学-耶鲁大学联合培养
  • 博士生导师
  • 硕士生导师
学科:
微电子学与固体电子学;
电子科学与技术其他专业;
教师简介

张宇,男,山东大学/耶鲁大学联合培养博士, 山东大学 教授,硕士/博士研究生导师。

长期从事先进电子材料、器件、生物传感芯片和装备(如:新型二维/纳米材料和器件,GaN材料和器件,微流控生物芯片及其装备)的研发和产业化工作,主持和参与国、省、市科研和产业化基金10余项,包含国家重点研发计划项目,自然基金项目,产业化项目,校企合作项目等,发表学术论文100余篇,包括Small methodsadvanced health materialsNPJ 2D materials and applications, nano-micro letters等期刊。学术成果多次在国内/国际会议上口头报告或张贴报告,得到业内的认可和好评。申请国际和中国发明专利80余项,,已授权30余项,其中1项国际专利授权给国际知名公司进行产业化,1项生物芯片技术授权国内一家公司进行产业化推广

Prof. Yu Zhang obtained joint Ph.D in Electrical Engineering at Yale University and Shandong University. His research focus on novel electronic materials and devices for biosensor and optoelectronics, such as 2D materials and devices, GaN materials and devices, microfluidics. Prof. Yu Zhang has published more than 100 research papers  such as Small methodsadvanced health materialsNPJ 2D materials and applications, nano-micro Letters etc. and applied more than 80 inventions with more than 30 granted in China and US. The developed nanoporous technology was licensed to international company for production. The developed biochip technology was licensed to a Chinese company for production.


教育经历
  • 1999-9 — 2003-6
    郑州轻工业学院
    热能与动力工程
    工学学士学位
  • 2003-9 — 2006-6
    山东大学
    凝聚态物理
    理学硕士学位
  • 2010 年 山东大学-耶鲁大学 联合培养 博士
    微电子学与固体电子学
    工学博士学位
工作经历
  • 2011-02 — 2013-05
    耶鲁大学(Yale University)
    博士后/副研究员
  • 2013-06 — 2016-12
    映瑞光电/镓特半导体
    研发总监
  • 2017-03-至今
    山东大学
    副研究员,副教授,教授
研究领域

微纳传感材料与器件及其系统:新型纳米材料与器件,微流控传感芯片与系统,光电传感材料与器件;

科研成果
论文

1.  陈镜. Performance Limits and Advancements in Single 2D Transition Metal Dichalcogenide Transistor.  NANO-MICRO LETTERS,  16,  2024. 

2.  韩云蕊. Motion behaviors of droplets containing Au nanoparticles on a superhydrophobic laser-induced graphene surface.  PHYSICS OF FLUIDS,  36,  2024. 

3.  韩云蕊. Suppression of coffee rings by controllable nanoparticle enrichment through superhydrophobicity-enabled dynamic evaporation.  Journal of Colloid and interface science,  673,  735-745, 2024. 

4.  . Lys-AuNPs@MoS2Nanocomposite Self-Assembled Microfluidic Immunoassay Biochip for Ultrasensitive Detection of Multiplex Biomarkers for Cardiovascular Diseases.  ANALYTICAL CHEMISTRY,  94,  4720-4728, 2022. 

5.  陈镜. Polarized Tunneling Transistor for Ultralow-Energy-Consumption Artificial Synapse toward Neuromorphic Computing.  ACS nano,  18,  581-591, 2023. 

6.  褚玉金. Rapid and High-Throughput SARS-CoV-2 RNA Detection without RNA Extraction and Amplification by Using a Microfluidic Biochip.  chemistry-a European journal,  28,  e202104054, 2022. 

7.  韩云蕊. Ultrasensitive and Reliable SERS Chip Based on Facile Assembly of AgNPs on Porous LIG to Enhance the Local Electromagnetic Field.  Journal of Physical Chemistry C,  2023. 

8.  韩云蕊. Ultrasensitive and Reliable SERS Chip Based on Facile Assembly of AgNPs on Porous LIG to Enhance the Local Electromagnetic Field.  The Journal of Physical Chemistry C ,  2023. 

9.  王一鹤. Recent methods of droplet microfluidics and their applications in spheroids and organoids.  LAB ON A CHIP,  1080, 2023. 

10.  . Laser-Induced Graphene Superhydrophobic Surface Transition from Pinning to Rolling for Multiple Applications.  Small Methods,  2022. 

11.  . Laser-Induced Graphene Superhydrophobic Surface Transition from Pinning to Rolling for Multiple Applications.  Small ,  6,  2022. 

12.  邵晓薇. Mechanical Stress Induces a Transient Suppression of Cytokine Secretion in Astrocytes Assessed at the Single-Cell Level with a High-Throughput Microfluidic Chip.  Advanced Healthcare Materials,  2021. 

13.  张宇. Reusable dual-enhancement SERS sensor based on graphene and hybrid nanostructures for ultrasensitive lead (Ⅱ) detection.  SENSORS AND ACTUATORS B-CHEMICAL,  341,  2021. 

14.  张宇. Enrichment-Detection Integrated Exosome Profiling Biosensors Promising for Early Diagnosis of Cancer.  ANALYTICAL CHEMISTRY,  93,  4697, 2021. 

15.  Yuzhen Huang,Xiaohui Yan, Qihang He, Jiaoyan Qiu,Yu Zhang*, Lin Han*. Ceria and gold co-decorated porous MoS2@graphene nanocomposite electrochemical electrode integrated with smartphone-controlled microstation for simultaneous dual metal ions detection.  Electrochimica Acta,2022,141509(online). 中科院2区,top,IF:7.336,  2022. 

16.  Jiaoyan Qiu,YujinChu, Qihang He,Yingkuan Han, Yu Zhang*,Lin Han*. A self-assembly hydrophobic oCDs/Ag nanoparticles SERS sensor for ultrasensitive melamine detection in milk.  Food Chemistry,2023,402,134241. 中科院1区,top,IF:9.231,  2022. 

17.  Yujin Chu,Jiaoyan Qiu,Yihe Wang,Min Wang,Yu Zhang, Lin Han*. Rapid and High-Throughput SARS-CoV-2 RNA Detection without RNA Extraction and Amplification by Using a Microfluidic Biochip.  Chemistry-A European Journal,2022,28,e2021040.中科院2区,top,IF:5.020,  2022. 

18.  Shun Wang, Mingyuan Sun, Yunhong Zhang, Hao Ji, Jianwei Gao, Shuai Song, Jun Sun, Hong Liu, Yu Zhang,* Lin Han*. Ultrasensitive Antibiotic Perceiving Based on AptamerFunctionalized Ultraclean Graphene Field-Effect Transistor Biosensor.  Analytical Chemistry,2022,94,14785-14793. 中科院1区,top,IF:8.008,  2022. 

19.  Ping Li,Le Qiang,Yingkuan Han,Yujin Chu,Jiaoyan Qiu,Fangteng Song,Min Wang,Qihang He,Yunhong Zhang,Mingyuan Sun,Caiwen Li ,Shuqun Song,Yun Liu,Lin Han*,Yu Zhang *. A Sensitive and Portable Double-Layer Microfluidic Biochip for Harmful Algae Detection.  Micromachines,2022,13,10,1759. 中科院3区,IF:3.523,  2022. 

20.  Yuzhen Huang,Ping Li,Yingkuan Han, Yu Zhang*, Lin Han*. Controllable surface engineered three-dimensional porous graphene based electrode for ultrasensitive flexible electrochemical sensing.  Applied Surface Science,2022,604,154530. 中科院 1区,top,IF:7.392,  2022. 

21.  Fangteng Song, Chao Wang, Chunhua Wang, Jianbo Wang, Yu Wu, Yihe Wang, Hong Liu, Yu Zhang*, Lin Han*. Multi-Phenotypic Exosome Secretion Profiling Microfluidic Platform for Exploring Single-Cell Heterogeneity.  Small Methods,2022,6,2200717. 中科院1区,top,IF:15.367,  2022. 

22.  Chao Wang, Chunhua Wang, Yu Wu, Jianwei Gao, Yingkuan Han, Yujin Chu, Le Qiang, Jiaoyan Qiu, Yakun Gao, Yanhao Wang, Fangteng Song, Yihe Wang, Xiaowei Shao, Yu Zhang*, Lin Han*. High-Throughput, Living Single-Cell, Multiple Secreted Biomarker Profiling Using Microfluidic Chip and Machine Learning for Tumor Cell Classification.  Advanced Healthcare Materials,2022,11,21028. 中科院1区,top,IF:11.092,  2022. 

23.  Yingkuan Han,Yunrui Han,Yuzhen Huang,Chao Wang,Hong Liu,Lin Han*,Yu Zhang*. Laser-Induced Graphene Superhydrophobic Surface Transition from Pinning to Rolling for Multiple Applications.  Small Methods,2022,6,2200096. 中科院1区,top,IF:15.367,  2022. 

24.  Yuzhen Huang, Yingkuan Han, Jiayang Sun, Yu Zhang*, Lin Han*. Dual nanocatalysts co-decorated three-dimensional, laser-induced graphene hybrid nanomaterials integrated with a smartphone portable electrochemical system for point-of-care non-enzymatic glucose diagnosis.  Materials Today Chemistry,2022,24,100895. 中科院1区,IF:7.613,  2022. 

25.  Jianwei Gao, Chunhua Wang, Yujin Chu, Yingkuan Han, Yakun Gao, Yanhao Wang, Chao Wang,Hong Liu, Lin Han*, Yu Zhang*. Graphene oxide-graphene Van der Waals heterostructure transistor biosensor for SARS-CoV-2 protein detection.  Talanta,2022,240,123197. 中科院2区,IF:6.556,  2022. 

26.  Jianwei Gao, Chunhua Wang, Chao Wang, Yujin Chu, Shun Wang, Ming yuan Sun, Hao Ji, Yakun Gao, Yanhao Wang, Yingkuan Han, Fangteng Song, Hong Liu, Yu Zhang*, Lin Han*. Poly-L-Lysine-Modified Graphene Field-Effect Transistor Biosensors for Ultrasensitive Breast Cancer miRNAs and SARS-CoV-2 RNA Detection.  Analytical Chemistry,2022,94,3,1626–1636. 中科院 1区,top,IF:8.008,  2022. 

27.  Yunrui Han, Yingkuan Han, Jiayang Sun, Hong Liu, Xiaoming Luo, Yu Zhang*, Lin Han*. Controllable Nanoparticle Aggregation through a Superhydrophobic Laser-Induced Graphene Dynamic System for Surface-Enhanced Raman Scattering Detection.  ACS Applied Materials & Interfaces,2022,14,2,3504–3514. 中科院 1区,top,IF:10.383,  2022. 

28.  Min Wang,Yujin Chu, Yingkuan Han, Le Qiang, Yu Zhang*, Lin Han*. Rapid, amplification-free and high-throughput SARS-CoV-2 RNA detection via a reducedgraphene-oxide based fluorescence assay.  Sensors & Diagnostics,2022,1,262-269. 中科院3区,IF:3.847,  2022. 

29.  Xiaowei Shao,Chunhua Wang, Chao Wang, Yu Zhang*, Lin Han. Mechanical Stress Induces a Transient Suppression of Cytokine Secretion in Astrocytes Assessed at the Single-Cell Level with a High-Throughput Microfluidic Chip.  Advanced Healthcare Materials,2021,10,2100698. 中科院 1区,top,IF:11.092,  2021. 

30.  Yanhao Wang, Yunhong Zhang, Qilin Cheng, Jinbo Pang, Yujin Chu, Hao Ji, Jianwei Gao, Yingkuan Han, Lin Han, Hong Liu, Yu Zhang*. Large area uniform PtSx synthesis on sapphire substrate for performance improved photodetectors.  Applied Materials Today,2021,25,101176. 中科院 1区,top,IF:8.663,  2021. 

31.  Chunhua Wang, Yu Zhang*, Wei Tang, Chao Wang, Yingkuan Han, Le Qiang, Jianwei Gao, Hong Liu, Lin Han*. Ultrasensitive, high-throughput and multiple cancer biomarkers simultaneous detection in serum based on graphene oxide quantum dots integrated microfluidic biosensing platform.  Analytica Chimica Acta,2021,1178,338791. 中科院 1区,top,IF:6.911,  2021. 

32.  Chunhua Wang, Chao Wang, Jiaoyan Qiu, Jianwei Gao, Hong Liu, Yu Zhang*, Lin Han*. Ultrasensitive, high-throughput, and rapid simultaneous detection of SARS-CoV-2 antigens and IgG/IgM antibodies within 10 min through an immunoassay biochip.  Microchimica Acta,2021,188,262. 中科院 2区,IF:6.408,  2021. 

33.  Yanhao Wang, Jinbo Pang, Qilin Cheng, Lin Han, Yufen Li, Xue Meng, Bergoi Ibarlucea, Hongbin Zhao, Feng Yang , Haiyun Liu, Hong Liu, Weijia Zhou, Xiao Wang, Mark H Rummeli, Yu Zhang*. Applications of 2D-Layered Palladium Diselenide and Its van der Waals Heterostructures in Electronics and Optoelectronics.  Nano-Micro Letter,2021,13,143. 中科院 1区,top,IF:23.655,  2021. 

34.  Yanhao Wang, Wei Zheng, Hao Ji, Depeng Shen, Yuhai Zhang, Yingkuan Han, Jianwei Gao, Le Qiang, Hong Liu, Lin Han, and Yu Zhang*. Performance-Enhanced CsPbBr3/HfO2/Si Heterostructure Optoelectronics through the Tunneling Effect.  Advanced Materials Interfaces,2021,2100279. 中科院 2区, IF:6.389,  2021. 

35.  Qihang He, Yingkuan Han, Yuzhen Huang, Jianwei Gao, Yakun Gao, Lin Han *, Yu Zhang*. Reusable dual-enhancement SERS sensor based on graphene and hybrid nanostructures for ultrasensitive lead (Ⅱ) detection.  Sensors and Actuators: B. Chemical,2021,341,130031. 中科院 1区,top,IF:9.221,  2021. 

36.  Fangteng Song, Chao Wang, Chunhua Wang, Jianwei Gao, Hong Liu, Yu Zhang*, Lin Han*. Enrichment-Detection Integrated Exosome Profiling Biosensors Promising for Early Diagnosis of Cancer.  Analytical Chemistry ,2021,93,4697-4706. 中科院 1区,top,IF:8.008,  2021. 

37.  Yakun Gao, Yingkuan Han, Chao Wang, Le Qiang, Jianwei Gao, Yanhao Wang,Hong Liu, Lin Han*, Yu Zhang*. Rapid and sensitive triple-mode detection of causative SARS-CoV-2 virus specific genes through interaction between genes and nanoparticles.  Analytica Chimica Acta,2021,1154, 338330. 中科院 1区,top,IF:6.911,  2021. 

38.  Yuzhen Huang, Yingkuan Han, Yakun Gao, Jianwei Gao, Hao Ji, Qihang He, Jianbo Tu, Guanqiu Xu, Yu Zhang*, Lin Han*. Electrochemical sensor array with nanoporous gold nanolayer and ceria@gold corona-nanocomposites enhancer integrated into microfluidic for simultaneous ultrasensitive lead ion detection.  Electrochimica Acta,2021,373,137921. 中科院 2区,top,IF:7.336,  2021. 

39.  Yingkuan Han, Le Qiang, Yakun Gao, Jianwei Gao, Qihang He, Hong Liu, Lin Han*,Yu Zhang*. Large-area surface-enhanced Raman spectroscopy substrate by hybrid porous GaN with AuAg for breast cancer miRNA detection.  Applied Surface Science,2021,541,148456. 中科院 1区,top,IF:7.392,  2020. 

40.  Jianwei Gao, Yanhao Wang, Yingkuan Han,·Yakun Gao, Chao Wang, Lin Han, Yu Zhang*. Graphene‑based feld‑efect transistors integrated with microfuidic chip for real‑time pH monitoring of seawater.  Journal of Materials Science: Materials in Electronics,2020,31,15372–15380. 中科院 4区, IF:2.779,  2020. 

41.  Yanhao Wang, Jianwei Gao, Bin Wei, Yingkuan Han, Chao Wang, Yakun Gao, Hong Liu, Lin Han, Yu Zhang*. Reduction of the ambient effect in multilayer InSe transistors and a strategy toward stable 2D-based optoelectronic applications.  Nanoscale,2020,12,18356. 中科院 2区,top,IF:8.307,  2020. 

42.  Le Qiang, Yu Zhang*, Chao Wu, Yingkuan Han, Suchun Wang, Yanyan Wang, Congcong Zhang, Guangzhou Liu, Qi Wu, Hong Liu, Ian R. Jenkinson, Jun Sun, Lin Han. A Facile and Sensitive DNA Sensing of Harmful Algal Blooms Based on Graphene Oxide Nanosheets.  Marine Biotechnology,2020,22,498–510. 中科院 2区,IF:3.727,  2020. 

43.  Jianfeng Jiang, Yu Zhang*, Aizhu Wang, Jiazhi Duan, Hao Ji, Jinbo Pang, Yuanhua Sang, Xianjin Feng, Hong Liu*, Lin Han. Construction of High Field-Effect Mobility Multilayer MoS2-Field-Effect Transistors with Excellent Stability through Interface Engineering.  ACS Applied Electronic Materials,2020,2,2132-2140. 中科院 3区,IF:4.494,  2020. 

44.  Bin Wei, Yingkuan Han, Yanhao Wang, Haonan Zhao, Bowen Sun, Xiaokun Yang, Lin Han, Mingming Wang, Zhiyong, Hongdi Xiao, Yu Zhang*. Tunable nanostructured distributed Bragg reflectors for III-nitride optoelectronic applications.  RSC Advances,2020,10,23341–23349. 中科院 3区, IF:4.036,  2020. 

45.  Jianwei Gao, Yakun Gao, Yingkuan Han, Jinbo Pang, Chao Wang, Yanhao Wang, Hong Liu, Yu Zhang*, Lin Han*. Ultrasensitive Label-free MiRNA Sensing Based on a Flexible Graphene Field-Effect Transistor without Functionalization.  ACS Applied Electronic Materials,2020,2,1090-1098. 中科院 3区, IF:4.494,  2020. 

46.  Le Qiang, Yu Zhang*, Xin Guo, Yakun Gao, Yingkuan Han, Jun Sun, Lin Han*. A rapid and ultrasensitive colorimetric biosensor based on aptamer functionalized Au nanoparticles for detection of saxitoxin.  RSC advances,2020,10,15293. 中科院 3区, IF:4.036,  2020. 

47.  Fulei Wang, Jianfeng Jiang, Qilu Liu, Yu Zhang, Jianjun Wang, Shuhua Wang, Lin Han *, Hong Liu*, Yuanhua Sang*. Piezopotential gated two-dimensional InSe field-effect transistor for designing a pressure sensor based on piezotronic effect.  Nano Energy,2020,70,104457,中科院1区,top,IF:19.069,  2020. 

48.  Yakun Gao, Le Qiang, Yujin Chu, Yingkuan Han, Yu Zhang*, Lin Han*. Microfluidic chip for multiple detection of miRNA biomarkers in breast cancer based on three-segment hybridization.  AIP Advances,2020,10,045022. 中科院 4区,IF:1.697,  2020. 

49.  Yingkuan Han, Hongxin Wang, Le Qiang, Yakun Gao, Qiqiang Li ,Jinbo Pang, Hong Liu, Lin Han, Yu Wu, Yu Zhang*. Fabrication of a uniform Au nanodot array/monolayer graphene hybrid structure for high-performance surface-enhanced Raman spectroscopy.  Journal of Materials Science,2020,55,591–602. 中科院 3区,IF:4.682,  2020. 

50.  Min Hao,Jianlong He,Chunhua Wang,Chao Wang,Baojin Ma,Shan Zhang,Jiazhi Duan,Feng Liu,Yu Zhang,Lin Han*,Hong Liu*,Yuanhua Sang*. Effect of Hydroxyapatite Nanorods on the Fate of Human Adipose-Derived Stem Cells Assessed In Situ at the Single Cell Level with a High-Throughput, Real-Time Microfluidic Chip.  Small,2019,15,1905001. 中科院1区,top,IF:15.153,  2019. 

51.  Jianfeng Jiang, Jingxin Li, Yutao Li, Jiazhzhi Duan, Linshen Li, Ye Tian, Zhihua Zong, Haotian Zheng, Xianjin Feng, Qiqiang Li, Hong Liu, Yu Zhang*, Tian-Ling Ren, Lin Han. Stable InSe transistors with high-field effect mobility for reliable nerve signal sensing.  npj 2D Materials and Applications ,2019,29. 中科院 1区,top, IF:10.516,  2019. 

52.  Weidong Xu, Jianfeng Jiang, Sanjin Xu, Yu Zhang, Huayong Xu, Lin Han, Xianjin Feng*. Effect of substrate temperature on sputtered indium-aluminum-zinc oxide films and thin film transistors.  Journal of Alloys and Compounds,2019,791,771-778. 中科院1区,top,IF:6.371,  2019. 

53.  Jianfeng Jiang,Qinghua Zhang,Aizhu Wang,Yu Zhang,Fanqi Meng,Congcong Zhang,Xianjin Feng,Yuanping Feng,Lin Gu*,Hong Liu*,Lin Han*. A Facile and Effective Method for Patching Sulfur Vacancies of WS2 via Nitrogen Plasma Treatment.  Small,2019,15,1901791. 中科院1区,top,IF:15.153,  2019. 

专利

1. 一种基于高性能石墨烯晶体管的抗生素传感器及其制备方法和应用

2. 一种仿生超疏水-亲水集成孔板及基于该孔板的高通量自动化核酸建库仪

3. 基于仿生的超疏水集成芯片的制备方法及SERS平台和应用

4. 一种无钉扎效应的激光诱导石墨烯的制备方法和应用

5. 一种单细胞自动印刷系统

6. 一种单细胞功能评估试剂盒及评估方法 授权号:ZL 2020105526822

7. 一种基因检测芯片及检测方法 授权号:ZL 2020105526555

8. 一种用于乳腺癌肿瘤标志物检测的试剂盒及方法 授权号:ZL2020105526911

9. 提高LED 芯片电流扩展的方法及LED 芯片 授权号:ZL201410510065.0

10. 一种具有特殊粗化形貌的LED 垂直芯片结构及其制备方法 授权号: ZL201410468337.5

11. 垂直型LED 的制作方法 授权号:ZL201410318634.1 第一发明人

12. 发光二极管、封装基板结构及封装方法 授权号:ZL201410318643.0 第一发明人

13. based on selective etching of the conductive for GaN Devices and their applications 授权号: CN102782818B 第一发明人

14. Conductivity-based selective etching and its applications for GaN Device,s(日本授权发明专利)授权号:JP5961557B2 第一发明人

15. Conductivity based selective etch for GaN Devices and applications thereof(国授权发明专利)授权号:US9206524B2 第一发明人

16. based selective etch for GaN Devices and applications thereof(国际发明专利)授权号:WO2011/094391A1 第一发明人

17. 一种PtSx高性能光电器件及其制备方法和应用 授权号:ZL2021110551975 第一发明人

18. 一种类氧化硅柔性薄膜的生长方法 授权号:ZL202010639961 第一发明人

19. 一种PtSx高性能光电器件及其制备方法和应用 授权号:ZL2021110551975 第一发明人

20. 一种多孔GaN导电DBR及其制备方法 授权号:ZL2019103428324 第一发明人

21. 一种GaN基垂直腔面发射激光器及其制备方法 授权号:ZL2019103429844 第一发明人

科研项目

1. 集成CRISPR与晶体管的核酸检测传感器的研究, 2024/12/10-2026/12/31

2. 生殖道微生物芯片检测技术合作开发项目, 2023/11/16-2024/11/30

3. CHO细胞DNA残留检测方法开发, 2023/12/12-2025/12/30

4. 基于微流控技术的体外人类胚胎培养体系建立, 2022/09/30-2024/12/31

5. 小型自动化病原微生物建库仪开发及产业化, 2022/05/11-2025/05/10

6. 面向癫痫诊疗的反应性神经调控脑机交互技术-智能纳米材料调控神经功能-2, 2021/12/01-2026/11/30

7. 同步检测多种赤潮藻基因芯片的加工, 2022/04/30-2023/12/31

8. 基于CRISPR-Cas10系统的核酸检测传感器的研究,主持,国家重点实验室开放基金,在研

9. 基于微流控芯片的新冠病毒核酸及免疫联合一体化在线诊断技术研究,主持,深圳市科技计划项目课题,在研

10. 同步检测多种赤潮藻基因芯片的加工 主持,横向项目,在研

11. 流控技术的体外人类胚胎培养体系建立 联合主持,山东大学医工交叉项目,在研

12. 面向癫痫诊疗的反应性神经调控脑机交互技术-智能纳米材料调控神经功能-2 主持,国家重点研发计划,在研

13. 微流控生物芯片及其相关设备的开发 主持,横向项目,在研, 2022/02/15-2023/02/15

14. 用于单细胞外泌体实时分析的传感芯片研究 第二位,国家自然基金面上, 在研, 2021/10/12-2025/12/31

15. 渤海湾生态环境监测评估及污染控制技术研究 主持,国家重点研发计划,结题, 2019/12/01-2021/12/31

16. 新型氮化镓蓝紫光垂直腔面发射激光器的研发 主持 山东省重点研发计划,结题, 2017/07/01-2019/06/30

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