学术身份

山东省泰山学者青年专家，山东大学齐鲁青年学者

研究领域

1. 微纳传感器制备、测试技术

2. 体外快速诊断设备，各类疾病标志物（小分子、蛋白、外泌体、气体等）快速检测装备

3. 应力应变传感器设计、研究与应用

4. 柔性可穿戴电子器件

5. 低维、半导体器件在疾病诊断方向的研究

招生

欢迎有机械、材料、生物、物理、微电子等相关背景学生报考！欢迎本科同学加入课题组学习！优秀学生可推荐至美国哥伦比亚大学、香港理工大学等国际知名高校交流、深造。

常年招聘相关方向博士后，待遇参照山东大学和山东省博士后政策及相关补贴。

研究生/本科生情况

1. 指导研究生获得国家奖学金等多项奖学金

2. 指导学生参加全国大学生创新大赛、大学生机械创新设计大赛等多项赛事，获得金奖、一等奖等多项

承担代表性科研项目情况

[1] 2026-2029 国家自然科学基金区域创新发展联合基金重点项目，课题负责人

[2] 2024-2026 国家自然科学基金，项目负责人

[3]2025-2028 山东省重点研发计划，项目负责人

[4] 2023-2025 山东省泰山学者计划，项目负责人

[5] 2024-2026 国家自然科学基金，项目负责人

[6] 2024-2026 山东省自然科学基金，项目负责人

[7] 2024-2026 江苏省自然科学基金，项目负责人

[8] 2023-2028 山东大学齐鲁青年学者启动基金，项目负责人

[9] 2023-2025 国家实验室开放基金，项目负责人

以及其他国防及横向项目十余项

近期主要的代表性论文等

[1] Zhang L., Wang Ziran*, et al.  A Multiplexed and In Situ Self-Calibration Biosensor Integrated System for 

     Metabolic Health Analysis in Human Urine [J]. Advanced Functional Materials, 2025, e20270. 

[2] Hao Z.¹, Fang X.¹ , Wang Ziran¹, et al.  Intelligent Wearable Graphene Nano-electronics with Switchable Surface 

     Wettability Capabilities for Autonomous Sweat Enrichment-Purification-Analysis [J]. Advanced Functional Materials, 2024, 34(41): 2400947. 

[3] Wang Ziran, Hao Z., Wang X., et al. A flexible and regenerative aptameric graphene–nafion biosensor for  cytokine 

    storm biomarker monitoring in undiluted biofluids toward wearable applications [J]. Advanced Functional Materials, 2021, 31(4): 2005958. 

[4] Wang Ziran, Hao Z., Yu S., et al. An ultraflexible and stretchable aptameric graphene nanosensor for biomarker 

    detection and monitoring [J]. Advanced Functional Materials, 2019, 29(44): 1905202. 

[5] Yuan H., Wang Ziran*, Yuan K., et al. Ferroelectric-coupled MXene/BaTiO3 nanocomposite empowering flexible

     triboelectric nanogenerators for deep learning-enhanced human-machine health monitoring [J]. Chemical Engineering Journal, 2025: 163758. 

[6] Wang C., Wang Ziran*, Xu F., et al. Monolayer graphene interlayer enhanced flexible gas sensor with fast 

    response and high strain tolerance for wearable ammonia monitoring [J]. Chemical Engineering Journal, 2025: 165630. 

[7] Wang Ziran, Hao Z., Yang C., et al. Ultra-sensitive and rapid screening of acute myocardial infarction using

    3D-affinity graphene biosensor [J]. Cell reports physical science, 2022, 3(5). 

[8] Wang Ziran, Dai W., Yu S., et al. Towards detection of biomarkers in the eye using an aptamer-based 

    graphene affinity nanobiosensor [J]. Talanta, 2022, 250: 123697.

[9] Wang Ziran, Dai W., Zhang Z., Wang H.. Aptamer-Based Graphene Field-Effect Transistor Biosensor 

    for Cytokine Detection in Undiluted Physiological Media for Cervical Carcinoma Diagnosis [J]. Biosensors, 2025, 15(3): 138. 

[10] Wang Ziran, Hao Z., Yu S., et al. A wearable and deformable graphene-based affinity nanosensor 

     for monitoring of cytokines in biofluids [J]. Nanomaterials, 2020, 10(8): 1503.

[11] Zhang Z., Zhang L., Wang Ziran*, et al. A Planar-Gate Graphene Field-Effect Transistor Integrated Portable

     Platform for Rapid Detection of Colon Cancer-Derived Exosomes [J]. Biosensors, 2025, 15(4): 207.

[12] Jia K., Zhang C., Wang Ziran*, et al. Monolayer TiAlTe3: A Perfect Room-Temperature 

      Valleytronic Semiconductor [J]. Materials, 2025, 18: 2396.

[13] Hou. X.,  .....Wang Ziran*, et al. Selective laser melting of TiC microparticles strengthened 316 L composites

       for flexible mechanisms with enhanced mechanical properties [J]. Materials Today Communications, 2025, 48:113527.   

[14] Fang J., Ren Z.*, .....Wang Ziran*, et al. 3-D helical reconfiguration of a 1-D guidewire with spiral

       microchannels for clotretrieval from cerebral blood vessels [J]. Microsystem Technologies, 2025, 10: 1503. 

[15] Wang C., Xu F., Wang Ziran*, et al. A Fast-Response and Sensitive Gas Sensor Based on Graphene-Tin Dioxide 

       Film for Ammonia Detection at Ambient Temperature;  2024 IEEE  3M-NANO, F, 2024 [C]. 

[16] Chen Y., Wang Ziran*, et al. An Orthogonal and Stereoscopic Amplifying Mechanism with Nonparasitic Displacement 

       for Parallel Piezoelectric Inchworm Actuators;  2024 20th IEEE/ASME  F, 2024 [C].

[17] Zhang J., Yang J., Wang Ziran*, et al. Design and Analysis of a Monolithic Tilt/Tip Platform Based on Anti-Symmetric 

       Flexible Structure;  2024 IEEE 3M-NANO, F, 2024 [C]. 

[18] Wang Ziran, Hao Z.,  Zhao X., et al. A Mechanically Flexible Aptamer-Based Graphene Nanosensor for Biomark 

       Monitoring[C]. 2019 IEEE MEMS.  pp. 2428-2431. (EI)

[19] Ma X., Wang Ziran, Yan P.. Programmable Metamaterials with Perforated Shell GroupSupporting Versatile

       Information Processing [J]. Advanced Science, 2025, 2417784.

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2017.10 -- 2019.11
哥伦比亚大学       机械工程       联合培养博士

2012.09 -- 2016.06
济南大学       机械工程及自动化       工学学士学位

2016.09 -- 2021.06
哈尔滨工业大学       机械工程       工学博士学位

2022.11 -- 至今

山东大学      机械工程学院      研究员

2021.09 -- 2022.10

香港理工大学