王子莹                     

职称：英才副教授

邮箱：wangzy91@tju.edu.cn

电话：022-27893596

地址：天津大学卫生应急学院10号东配楼412    

个人简介

理学博士，天津大学英才副教授，硕士/博士生导师。河北省优秀青年基金获得者，获中国电子教育学会优秀博士论文优秀奖。长期从事医疗健康监测与诊疗装备研究，发表SCI论文57篇，以第一/通讯作者发表SCI论文22篇，总引用3000余次，H-index为28，国家发明专利9项，主持国家/省部级项目5项。

教育背景

2016.09-2019.06  吉林大学，微电子学与固体电子学，博士

2013.09-2016.06  吉林大学，集成电路工程，硕士

2011.09-2013.06  俄罗斯托木斯克理工大学，微电子学，学士

2009.09-2013.06  吉林大学，微电子学，学士

研究方向

（1）柔性可穿戴/可植入智能传感器

（2）创口微环境智能监测与诊疗系统

（3）可穿戴柔性智能热电织物

（4）环境气体监测

工作经历

2025.04-至今  天津大学卫生应急学院 英才副教授

2023.11-2025.03 河北工业大学 副教授

2023.04-2025.03 先进智能防护装备技术教育部重点实验室，副主任

2019.07-2023.10 河北工业大学 讲师

代表性学术成果

【代表性论文】

1.Ziying Wang, Xinqi Zhao^*, Kai Yan, Pengli Zhang, Shuai Zhang, Haojun Fan^*, Smart textiles for chronic disease management: Advancements applications, and future prospects, Materials Science Engineering R, 2025, 164, 100987. (IF: 31.6，一区，Top)

2.Xinqi Zhao, Ziying Wang^*, et al., Breathable, robust, and flexible hierarchical design of multifunctional integrated smart textiles for human health management. Chemical Engineering Journal, 2025, 507, 160736. (IF: 13.4，一区，Top)

3.Min Zhang，Kunhao Xiu，Jingyao Sun，Ziying Wang^*，Libin Zhao^*，Research progress on flexible wearable piezoelectric ultrasound transducers. Metrology & Measurement Technology, 2024, 44(3):72-83.

4.Jingyao Sun, Ziying Wang^*, et al., Multifunctional wearable humidity and pressure sensor based on biocompatible bacterial cellulose/graphene bioaerogel for wireless human health and sleep status monitoring. Nano Energy, 2023, 108, 108215. (IF: 16.8，一区，Top)

5.Ziying Wang^*, Jungil Song, Denvid Lau, et al., A flexible, stretchable and triboelectric smart sensor based on graphene oxide and polyacrylamide hydrogel for high precision gait recognition in parkinsonian and hemiplegic patients, Nano Energy, 2022, 104, 107978. (IF: 16.8，一区，Top) 

6.Ziying Wang^*, Miaomiao Bu et al., An overview on room-temperature chemiresistor gas sensors based on 2D materials: research status and challenge, Compos. Part B-Eng. 2023, 248, 110378. (Review Article) (IF: 12.7，一区，Top)

7.Wei Yu, Wenhua Dai, Zixin Hong, Guoxian Li, Ziying Wang, Chuizhou Meng^*, Jiaping Wang^*, Changhong Liu, et al., Continuously-tunable and ultrawide-range thermal regulator based on superaligned carbon nanotube aerogels for dynamic thermal management of batteries and buildings, Adv. Funct. Mater. 2024, 34, 2314021. (IF: 18.5，一区，Top)

8.Ziying Wang, Haozhe Yang, Yingdan Zhu^* et al., Defect engineering of two-dimensional ultra-thin Co₃O₄ nanosheets for wireless and high-performance monitoring of the sensing properties of volatile organic compounds, Mater. Today Chem. 2023, 32, 101639. (IF: 6.7，二区，Top)

9.Lingxiao Gao, Jinrong Li^*, Ziying Wang, et al., A high performance triboelectric nanogenerator based on ordered doping technique for human-machine interaction sensing, Nano Energy, 2022, 95, 107025. (IF: 16.8，一区，Top) 

10.Yanming Huo, Ziying Wang^*, et al., Flexible, non-contact and multifunctional humidity sensors based on two-dimensional phytic acid doped co-metal organic frameworks nanosheets, J. Colloid Interf. Sci. 2022, 607, 2010-2018. (IF: 9.4，一区，Top)

11.Zongtao Ma, Ziying Wang^*, et al., Oxygen plasma-assisted defect engineering of graphene nanocomposites with ultrasmall Co₃O₄ nanocrystals for monitoring toxic nitrogen dioxide at room temperature, Langmuir 2022, 38, 7290-7299. (IF: 3.7，二区, Top)

12.Lei Zhai, Ziying Wang^*, Xiaojing Mu^*, et al., An energy harvester coupled with a triboelectric mechanism and electrostatic mechanism for biomechanical energy harvesting, Nanomaterials 2022, 12, 933. (IF: 4.4，三区)

13.Ziying Wang, Ning Hu^*, et al., Recent advances in natural functional biopolymers and their applications of electronic skins and flexible strain sensors, Polymers, 2021, 13(5), 813. (Review Article) (IF: 4.7，二区)

14.Zongtao Ma, Ziying Wang^*, et al., Light-assisted enhancement of gas sensing property for micronanostructure electronic device: a mini review, Front. Chem. 2021, 9, 811074. (Review Article) (IF:3.8，二区)

15.Yuhua Yan, Ziying Wang^*, et al., Surface microstructure-controlled ZrO₂ for highly sensitive room-temperature NO₂ sensors, Nano Mater. Sci. 2021, 3, 268-275. (IF:12.6，一区)

16.Ziying Wang^*, Tong Zhang^*, et al., Porous Co₃O₄ nanocrystals derived by metal-organic frameworks on reduced graphene oxide for efficient room-temperature NO₂ sensing properties, J. Alloy. Compd. 2020, 856, 158199. (IF: 5.8，二区，Top)

17.Ziying Wang, Tong Zhang^*, et al., The construction of ZnO/SnO₂ heterostructure on reduced graphene oxide for enhanced nitrogen dioxide sensitive performances at room temperature. ACS Sens. 2019, 4, 2048-2057. (Cover Article) (IF: 8.2，一区，Top)

18.Ziying Wang, Andre Sackmann, Udo Weimar, Geyu Lu, Tong Zhang^*, Nicolae Barsan^*, et al., Study on highly selective sensing behavior of ppb-level oxidizing gas sensors based on Zn₂SnO₄ nanoparticles immobilized on reduced graphene oxide under humidity conditions, Sensor Actuator B-Chem. 2019, 285, 590-600. (IF: 8，一区，Top)

19.Ziying Wang, Tong Zhang, Sen Liu^*, Geyu Lu, et al., Rational synthesis of molybdenum disulfide nanoparticles decorated reduced graphene oxide hybrids and their application for high-performance NO₂ sensing, Sensor Actuator B-Chem. 2018, 260, 508-518. (IF: 8，一区，Top)

20.Ziying Wang, Tong Zhang, Sen Liu^*, Geyu Lu, et al., Oxygen vacancy engineering for enhanced sensing performances: A case of SnO₂ nanoparticles-reduced graphene oxide hybrids for ultrasensitive ppb-level room-temperature NO₂ sensing, Sensor Actuator B-Chem. 2018, 266, 812-822. (IF: 8，一区，Top)

21.Ziying Wang, Sen Liu^*, Tong Zhang^*, et al., Investigation of microstructure effect on NO₂ sensors based on SnO₂ nanoparticles/reduced graphene oxide hybrids. ACS Appl. Mater. Interfaces 2018, 10, 41773-41783. (IF: 8.3，一区，Top)

22.Ziying Wang, Tong Zhang, Sen Liu^*, Geyu Lu, et al., Anchoring ultrafine Pd nanoparticles and SnO₂ nanoparticles on reduced graphene oxide for high-performance room temperature NO₂ sensing, J. Colloid Interf. Sci. 2018, 514, 599-608. (IF: 9.4，一区，Top)

23.Ziying Wang, Geyu Lu, Tong Zhang^*, et al., High-performance reduced graphene oxide-based room-temperature NO₂ sensors: A combined surface modification of SnO₂ nanoparticles and nitrogen doping approach, Sensor Actuator B-Chem. 2017, 242, 269-279. (IF: 8，一区，Top)

24.Ziying Wang, Tong Zhang^*, et al., Preparation of Ag nanoparticles-SnO₂ nanoparticles-reduced graphene oxide hybrids and their application for detection of NO₂ at room temperature, Sensor Actuator B-Chem. 2016, 222, 893-903. (IF: 8，一区，Top)

【科研项目】

1.面向单兵作战心电监测的柔性可穿戴表皮电子系统研究（E2023202096），主持，河北省优秀青年科学基金，在研，20万

2.面向脑卒中治疗的多维针刺手法采集、传承及超声相控阵针灸疗效复现（A2023202049），参与，河北省基础研究重大项目，在研，400万

3.场站氢气泄漏及管道结构状态智能监测（246Z3901G），参与，河北省中央引导地方科技发展资金项目（科技成果转移转化项目），在研，635万

4.面向煤矿瓦斯监测预警的自驱动、抗湿干扰甲烷传感器及其增感机理研究（52104189），主持，国家自然科学基金，结题，30万

5.基于Co₃O₄ 表面缺陷调控的高性能 VOCs 气体传感器的研究（F2020202050），河北省青年科学基金，结题，6万

【发明专利】

1.一种基于O₂等离子处理的二维Co₃O₄纳米片材料的制备方法及乙醇气体传感器，已授权，2022.05.20，第一发明人，专利号：ZL202110659305.3

2.湿度传感器的敏感元件的制备方法，已授权，2022.07.05，第一发明人，专利号：ZL202110493372.2

3.一种石墨烯基可穿戴无线压力传感器的制备方法，已授权，2024.6.25，第一发明人，专利号：ZL 2022 1 0696991.6

4.一种自供电式水凝胶应变传感器及其制作方法，已受理，2022.6.8，第一发明人，专利号：202210558187.1

5.一种基于石墨烯/TPU复合材料应变传感器的制备方法，已受理，2022，第一发明人，专利号：202210896296.4

6.一种基于可穿戴应变传感器的步态识别系统及其搭建方法，已受理，2022，第一发明人，专利号：202210935701.9

7.一种SnO₂-RGO纳米复合材料的制备方法及其应用，已受理，2022，第一发明人，专利号：202211226860.8

8.一种用于可视化热疗、运动监测的分层设计电子纺织品的制备方法，已受理，2024，第一发明人，专利号：202411040500.8

9.宽范围内梯度微结构离子电容式压力传感器及其制作方法，已受理，2024，第一发明人，专利号202410965562.3

10.用于人体动态心电监测的仿生剪纸形表皮电极及制作方法，已受理，2025，第二发明人，专利号 CN202411839231.1

11.基于离子凝胶压力传感器阵列的指套及制备方法，已受理，2024，第二发明人，专利号 202411839236.4