吴进，亚洲av “百人计划”副教授，博士生导师。分别于2011年和2014年在华中科技大学和新加坡南洋理工大学获得硕士和博士学位。博士毕业后在新加坡-麻省理工研究与技术联盟(SMART)做博士后从事传感器的研究。2017年加入亚洲av-亚洲AV十大平台 ，为光电材料与技术国家重点实验室固定成员。从事智能传感与柔性电子研究，积极开展电子学、材料和生物医学领域的交叉研究。开发面向健康安全的柔性可拉伸、可穿戴、高性能、自修复的电子器件。发表SCI/EI论文140多篇，以通讯/第一作者在Nature Communications，Advanced Materials, Advanced Functional Materials, ACS Nano，Matter等期刊发表SCI论文80多篇，其中影响因子大于10的论文30多篇，论文被引用8000多次，ESI高被引论文/热点论文20多篇。自2022年起连续3年入选全球前2%顶尖科学家榜单，入选国际先进材料协会会士（IAAM Fellow），入选ScholarGPS全球前0.05%顶尖科学家榜单。申请/授权美国/中国发明专利＞30项，其中成果转化9件，近年受邀请做国内外会议学术报告十几次，担任Nano-Micro Letters, Advanced Fiber Materials，SmartMat，SusMat等8个期刊的青年编委或副主编。主持国家自然科学基金面上、青年基金，广东省自然科学基金等科技项目多项。

招生学科方向：电子科学与技术、微电子、集成电路、生物医学等。

研究小组注重培养十大亚洲AV平台的创新思维、实验技能（电子器件设计、制备和性能表征测试、穿戴式设备开发和系统应用、电路与系统设计与制作等）和科技论文写作和表达能力，自入职以来培养十几名研究生毕业，指导研究生（吴子轩、丁琼玲、丁浩钧等）在Nature Communications等期刊发表多篇一区论文，获国家奖学金6人次。指导硕士生获得亚洲av 2022年度优秀硕士学位论文和优秀毕业生、本科生获得亚洲av 2023年度优秀本科毕业论文、研究生获全国大十大亚洲AV平台生物医学工程创新设计竞赛一等奖。

指导研究生获国家奖学金：吴子轩（2019），丁浩钧（2020），吴子轩（2022），梁誉苧（2022），王浩（2024），李健烨（2024）

研究小组每年招收博士研究生、硕士研究生多名、博士后，欢迎本科生加入体验研究项目。

目前有2026年入学硕士生（电子科学与技术/微电子/集成电路）招收指标，名额充沛，欢迎联系。

邮箱：[email protected]                                  

学术兼职和社会服务

担任Nature Communications, Advanced Materials, National Science Review，Matter, Advanced Functional Materials, ACS Nano，Nano Letters, Nano-Micro Letters, Advanced Science, Advanced Energy Materials等几十个SCI期刊的审稿人

国家自然科学基金通讯评审专家、广东省科学技术厅专家评审委员、浙江省自然科学基金专家评审委员

SCI期刊《Frontiers in Materials》副主编

SCI期刊《Nano-Micro Letters》（IF=26，一区）、《SusMat》（IF=28）、《Advanced Fiber Materials》（IF=16，一区）、《SmartMat》（IF=20）、《Science China Materials》（IF=8.1，Q1）、国产高起点新刊《Exploration》等6个期刊的青年编委

光电材料与技术国家重点实验室固定成员、广东省显示材料与技术重点实验室固定成员

英国皇家化学学会（RSC）前1%高被引作者

获Nano-Micro Letters ESI顶级论文奖

获2024年国际先进材料协会（IAAM）Advanced Materials Award

教育经历

2011-2014年，新加坡南洋理工大学，博士（师从霍峰蔚教授）

2008-2011年，华中科技大学，工学硕士（师从杨君友教授）

2004-2008年，武汉理工大学，工学学士

授课课程

本科生课程：

1. 电路理论基础
2. 微纳电子器件
3. 电路理论基础实验
4. 大学物理实验

研究方向

柔性/穿戴式/可拉伸电子器件、传感器、电路

电子工程，材料工程, 生物医学工程, 物理，化学等多学科交叉

软体凝胶电子器件

电子/离子皮肤，表皮电子，人机交互，软体机器人，自供电/自驱动电子器件

多模态传感器、无线传感器与系统集成

代表性科研成果

已发表SCI/EI论文140多篇，详情参见：//www.researchgate.net/profile/Jin-Wu-4

论文被science, nature子刊，PNAS等重要学术期刊引用。（*为通讯作者）

2025年

1. Q. Ding, H. Wang, Y. Zhou, Z. Zhang, Y. Luo, Z. Wu, L. Yang, R. Xie, B.‐. Yang, K. Tao, S. Pan, F. Liu, J. Fu, F. Huo*, Wu, J.*, Self‐Powered Switchable Gas‐Humidity Difunctional Flexible Chemosensors Based on Smart Adaptable Hydrogel. Advanced Materials2025, 2502369. (影响因子:27.4, 一区) 

2.Y. Luo, H. Wang, Y. Liang, R. Xie, Z. Wu, Y. Zhou, K. Tao, S. Pan, B.‐. Yang, Y. Fu, F. Liu*, F. Huo*, Wu, J.*, Motion‐Interference Free and Self‐Compensated Multi‐Receptor Skin with all Gel for Sensory Enhancement. Advanced Functional Materials 2025, 2502196.  (影响因子:19, 一区) 

3.Z. Zhang, J. Li, H. Chen, H. Wang, Y. Luo, R. Si, R. Xie, K. Tao, B.‐. Yang, D. Zhang, F. Liu, F. Huo*, Wu, J.*, Scalable Fabrication of Uniform Fast‐Response Humidity Field Sensing Array for Respiration Recognition and Contactless Human‐Machine Interaction. Advanced Functional Materials 2025, 2502583.  (影响因子:19, 一区) 

2024年

1. Luo, L.; Wu, Z.; Ding, Q.; Wang, H.; Luo, Y.; Yu, J.; Guo, H.; Tao, K.*; Zhang, S.; Huo, F.*; Wu, J.* In-situ structural densification of hydrogel network and its interface with electrodes for high-performance multimodal artificial skin. ACS Nano 2024, //doi.org/10.1021/acsnano.4c02359 (影响因子:17.1, 一区) (ESI高被引论文)

2. Wang, W.; Yao, D.; Wang, H.; Ding, Q.; Luo, Y.; Ding, H.; Yu, J.; Zhang, H.; Tao, K.; Zhang, S.*; Huo, F.*; Wu, J.* A Breathable, Stretchable, and Self-calibrated Multimodal Electronic Skin Based on Hydrogel Microstructures for Wireless Wearables. Advanced Functional Materials 2024, 2316339, DOI: 10.1002/adfm.202316339 (影响因子:19, 一区) (ESI高被引论文)

3. Li, J.; Wang, H.; Luo, Y.; Zhou, Z.; Zhang, H.; Chen, H.; Tao, K.*; Liu, C.; Zeng, L.; Huo, F.*; Wu, J.* Design of AI-enhanced and hardware-supported multimodal e-skin for environmental object recognition and wireless toxic gas alarm. Nano-Micro Letters 2024, 16, 256.( 影响因子:26.6, 一区)

4. Li, J.; Luo, Y.; K. Tao*, Wu, J.*, Graphene-modified hydrogels for bioelectronic interface, Matter, 2024, DOI: 10.1016/j.matt.2024.10.003 (影响因子:17.3, 一区)

5. Yao, D.; Wang, W.; Wang, H.; Luo, Y.; Ding, H.; Gu, Y.; Wu, H.; Tao, K.*; Yang, B.; Pan, S.; Fu, J.; Huo, F. W.*; Wu, J.* Ultrasensitive and Breathable Hydrogel Fiber-based Strain Sensors Enabled by Customized Crack Design for Wireless Sign Language Recognition. Advanced Functional Materials 2024. (影响因子:19, 一区)

6.Lin, H.; Li, J.; Ding, Q.; Wang, H.; Luo, Y.; Yu, J.; Zhang, H.; Yang, B.-R.; Tao, K.*; Liu, C.*; Wu, J.*, Strain- and humidity-insensitive, stretchable hydrogel-based oxygen sensor with corrosion-free electrodes for wireless oxygen detection. Sensors and Actuators B: Chemical 2024, 414. DOI: 10.1016/j.snb.2024.135939 (IF=9.2，一区)

7. Wang, H.; Yao, D.; Luo, Y.; Zhong, B.; Gu, Y.; Wu, H.; Yang, B.-R.; Li, C.*; Tao, K.*; Wu, J.*, Ultrasensitive, Fast-Response, and Stretchable Temperature Microsensor Based on a Stable Encapsulated Organohydrogel Film for Wearable Applications. ACS Sensors 2024. DOI：10.1021/acssensors.4c02677

8.Hong, J.; Yao, D.; Wang, H.; Ding, Q.; Luo, Y.; Yu, J.; Zhang, H.; Zeng, L.; Yang, B.; Wang, B.*; Tao, K.*; Wu, J.*, Stretchable, stable and high-performance optoelectronic sensors based on hydrogel for ultraviolet imaging and wireless alarm. Science China Materials 2024. DOI: 10.1007/s40843-024-2879-2 (IF=8.1)

2023年

1. Huang, W.; Ding, Q.; Wang, H.; Wu, Z.; Luo, Y.; Shi, W.; Yang, L.; Liang, Y.; Liu, C.; Wu, J.* Design of stretchable and self-powered sensing device for portable and remote trace biomarkers detection. Nature communications 2023, 14 (1), 5221.(影响因子: 16.6, 一区)

2.Wang, H.; Ding, Q.; Luo, Y.; Wu, Z.; Yu, J.; Chen, H.; Zhou, Y.; Zhang, H.; Tao, K.*; Chen, X.; Fu, J.; Wu, J.* High-Performance Hydrogel Sensors Enabled Multimodal and Accurate Human–Machine Interaction System for Active Rehabilitation. Advanced Materials 2023, 2309868.DOI:10.1002/adma.202309868. (影响因子: 29.4, 一区) (ESI高被引论文)

3. Zhai, K.; Wang, H.; Ding, Q.; Wu, Z.; Ding, M.; Tao, K.*; Yang, B. R.; Xie, X.; Li, C.*; Wu, J.* High-Performance Strain Sensors Based on Organohydrogel Microsphere Film for Wearable Human-Computer Interfacing. Advanced Science 2023, 10, 2205632. (影响因子: 15.1，ESI热点论文)

4. Wu, Z.; Wang, H.; Ding, Q.; Tao, K.; Shi, W.; Liu, C.; Chen, J.; Wu, J.* A Self-Powered, Rechargeable, and Wearable Hydrogel Patch for Wireless Gas Detection with Extraordinary Performance. Advanced Functional Materials 2023, 2300046, DOI: 10.1002/adfm.202300046. (影响因子: 19，ESI高被引论文)

5. Wu, Z.; Ding, Q.; Wang, H.; Ye, J.; Luo, Y.; Tao, K.*; Liu, C.*; Wu, J.* A Humidity-resistant, Sensitive and Stretchable Hydrogel-based Oxygen Sensor for Wireless Health and Environmental Monitoring. Advanced Functional Materials 2023, 2308280 (SCI，IF:19, 一区)

6. Tao, K.; Yu, J.; Zhang, J.; Bao, A.; Hu, H.; Ye, T.; Ding, Q.; Wang, Y.; Lin, H.; Wu, J.*; Chang, H.; Zhang, H.*; Yuan, W*. Deep-Learning Enabled Active Biomimetic Multifunctional Hydrogel Electronic Skin. ACS Nano 2023, DOI: 10.1021/acsnano.3c05253. (影响因子: 17.1，ESI高被引论文)

7. Li, J.; Ding, Q.; Wang, H.; Wu, Z.; Gui, X.; Li, C.; Hu, N.*; Tao, K.*; Wu, J.* Engineering Smart Composite Hydrogels for Wearable Health Monitoring. Nano-Micro Letters 2023, 15 (1), 105, DOI: 10.1007/s40820-023-01079-5. (影响因子: 26.6，ESI高被引论文)

8. Luo, Y.; Li, J.; Ding, Q.; Wang, H.; Liu, C.; Wu, J.* Functionalized Hydrogel-Based Wearable Gas and Humidity Sensors. Nano-Micro Letters 2023, 15 (1), 136. (影响因子: 26.6，ESI高被引论文)

9. Ding, Q.; Zhou, Z.; Wang, H.; Wu, Z.; Tao, K.; Yang, B.-R.; Xie, X.; Fu, J.; Wu, J.* Self-healable, recyclable, ultrastretchable and high-performance NO2 sensor based on organohydrogel for wireless, room temperature and below operation. SmartMat 2023;4:e1141. doi:10.1002/smm2.1141，入选SmartMat期刊2022年推特关注度前五文章. (影响因子: 20.4)

10. Ding, Q.; Wang, H.; Zhou, Z.; Wu, Z.; Tao, K.; Gui, X.; Liu, C.; Shi, W.; Wu, J. * Stretchable, Self-Healable, and Breathable Biomimetic Iontronics with Superior Humidity Sensing Performance for Wireless Respiration Monitoring. SmartMat 2023, 4, e1147. doi:10.1002/smm2.1147. (影响因子: 20.4)

11. Yang, J.; Rong, L.; Huang, W.; Wu, Z.; Ding, Q.; Zhang, H.; Lin, Y.; Li, F.; Li, C.; Yang, B. R.*; Tao, K.*; Wu, J.* Flame‐retardant, flexible, and breathable smart humidity sensing fabrics based on hydrogels for respiratory monitoring and non‐contact sensing. View 2023, 20220060. (影响因子: 8.6).

12. Tao, K.*; Zhao, Z.; Mao, X.; Shen, W.; Qiu, C.; Qi, H.; Ye, T.; Zhang, X.; Wu, J.*; Fan, K.*; Chang, H.; Yuan, W.* Direct-current, long-lasting and highly efficient electret energy harvesting from ultra-low-frequency motions using toothed clutch mechanism. Nano Energy 2023, 105, 107998. (影响因子: 17.6)

13. Wang, H.; Zou, Q.; Xiang, Y.; Yang, J.; Xu, Z.; Yang, W.; Wu, Y.; Wu, J.*; Liu, D.; Zhang, D.*; Hu, N.* A smart tablet-phone-based system using dynamic light modulation for highly sensitive colorimetric biosensing. Talanta 2023, 252, 123862.(影响因子: 6.1)

14. Lyu, B.; Zhou, H.; Gao, Y.; Mao, X.; Li, F.; Zhang, J.; Nie, D.; Zeng, W.; Lu, Y.; Wu, J.*; Yang, Z.*; Tao, K.* Constructing origami power generator from one piece of electret thin film and application in AI-enabled transmission line vibration monitoring. Microsystems & Nanoengineering 2023, 9 (1), 101. DOI: 10.1038/s41378-023-00572-6. (影响因子: 7.9)

2022年

1. Liang, Y.; Wu, Z.; Wei, Y.; Ding, Q.; Zilberman, M.; Tao, K.; Xie, X.; Wu, J.* Self-healing, Self-adhesive and Stable Organohydrogel based Stretchable Oxygen Sensor with High-performance at Room Temperature. Nano-Micro Letters (2022) 14:52 DOI: 10.1007/s40820-021-00787-0. (影响因子: 23.6，ESI高被引论文)

2. Liang, Y.; Ding, Q.; Wang, H.; Wu, Z.; Li, J.; Li, Z.; Tao, K.; Gui, X.; Wu, J.* Humidity Sensing of Stretchable and Transparent Hydrogel Films for Wireless Respiration Monitoring. Nano-Micro Letters 2022, 14:183. DOI:10.1007/s40820-022-00934-1 (影响因子: 23.6)

3. Ding, Q.; Wu, Z.; Tao, K.; Wei, Y.; Wang, W.; Yang, B.-r.; Xie, X.; Wu, J.* Environment Tolerant, Adaptable and Stretchable Organohydrogel: Preparation, Optimization, and Applications. Materials Horizons 2022, 9, 1356-1386. DOI: 10.1039/D1MH01871J. (影响因子: 15.7，ESI高被引论文)

4. Tao, K.; Chen, Z.; Yu, J.; Zeng, H.; Wu, J.*; Wu, Z.; Jia, Q.; Li, P.; Fu, Y.; Chang, H.; Yuan, W., Ultra-Sensitive, Deformable and Transparent Triboelectric Tactile Sensor based on Micro-Pyramid Patterned Ionic Hydrogel for Interactive Human-Machine Interfaces, Advanced Science 2022, 9（10），2104168. DOI: 10.1002/advs.202104168. (影响因子: 17.5，ESI高被引论文)

5. Ding, H.; Wu, Z.; Wang, H.; Zhou, Z.; Wei, Y.; Tao, K.; Xie, X.; Wu, J.* Ultrastretchable, High-performance, and Crosstalk-free Proximity and Pressure Bimodal Sensor Based on Ionic Hydrogel Fibers for Human-Machine Interfaces. Materials Horizons 2022, 9, 1935–1946. DOI: 10.1039/d2mh00281g (影响因子: 15.7，ESI高被引论文, 2022年Materials Horizons Most Popular Article)

6. Wei, Y.; Wang, H.; Ding, Q.; Wu, Z.; Zhang, H.; Tao, K.; Xie, X.; Wu, J.* Hydrogel- and Organohydrogel-based Stretchable, Ultrasensitive, Transparent, Room-temperature and Real-time NO2 Sensors and the Mechanism. Materials Horizons 2022, 9, 1921–1934. DOI: 10.1039/D2MH00284A. (影响因子: 15.7，ESI高被引论文)

7. Lin, Y.; Wu, Z.; Li, C.; Ding, Q.; Tao, K.; Zhai, K.; Chen, M.; Zilberman, M.; Xie, X.; Wu, J.* Deformable, Transparent, High-performance, Room-Temperature Oxygen Sensors Based on Ion-Conductive, Environment-Tolerant and Green Organohydrogels. Ecomat 2022, e12220, DOI:10.1002/eom2.12220 (影响因子: 12.2)

8. Wu, Z.; Ding, Q.; Li, Z.; Zhou, Z.; Luo, L.; Tao, K.; Xie, X.; Wu, J.* Ultrasensitive, stretchable, and transparent humidity sensor based on ionconductive double-network hydrogel thin-films. Science China Materials 2022, 65(9), 2540–2552, DOI：10.1007/s40843-021-2022-1 (影响因子: 8.6)

9. Wu, J.*; Huang, W.; Wu, Z.; Yang, X.; Kottapalli, A. G. P.; Xie, X.; Zhou, Y.*; Tao, K*. Hydrophobic and Stable Graphene-Modified Organohydrogel Based Sensitive, Stretchable, and Self-Healable Strain Sensors for Human-Motion Detection in Various Scenarios. ACS Materials Letters 2022, 4, 1616-1629, DOI: 10.1021/acsmaterialslett.2c00230. (影响因子: 11.2)

10. Chen, Z.; Yu, J.; Zhang, X.; Zeng, H.; Li, Y.*; Wu, J.*; Tao, K.* A button switch inspired duplex hydrogel sensor based on both triboelectric and piezoresistive effects for detecting dynamic and static pressure. Nanotechnology and Precision Engineering 2022, 5 (2), 023002, DOI: 10.1063/10.0010120.

2021年

1. Wu, Z.; Yang, X.; Wu, J.* Conductive Hydrogel- and Organohydrogel-Based Stretchable Sensors. ACS Applied Materials & Interfaces 2021, 13, 2128−2144. (影响因子: 10.4，ESI高被引论文，热点论文)

2. Wu, Z.; Rong, L.; Yang, J.; Wei, Y.; Tao, K.; Zhou, Y.; Yang, B.-R.; Xie, X.; Wu, J.* Ion-Conductive Hydrogel based Stretchable, Self-healing and Transparent NO2 Sensor with High Sensitivity and Selectivity at Room Temperature. Small 2021, 17, 2104997. DOI: 10.1002/smll.202104997. (影响因子: 15.2)

3. Tao, K.*; Zhao, Z.; Yang, Y.; Wu, J.*; Li, Y.; Fan, K.; Fu, Y.; Chang, H.; Yuan, W.* Development of bipolar-charged electret rotatory power generator and application in self-powered intelligent thrust bearing. Nano Energy 2021, 90, 106491. (影响因子: 19)

4. Wu, Z.; Ding, H.; Tao, K.; Wei, Y.; Gui, X.; Shi, W.; Xie, X.; Wu, J.* Ultrasensitive, Stretchable, and Fast-Response Temperature Sensors Based on Hydrogel Films for Wearable Applications. ACS Applied Materials & Interfaces 2021, 13, 21854–21864. (影响因子: 10.4，ESI高被引论文)

5. Wu, Z.; Shi, W.; Ding, H.; Zhong, B.; Huang, W.; Zhou, Y.; Gui, X.; Xie, X.; Wu, J.* Ultrastable, Stretchable, High-conductive and Transparent Hydrogels Enabled by Salt-Percolation for High-performance Temperature and Strain Sensing. Journal of Materials Chemistry C 2021, 9, 13668-13679. DOI: 10.1039/D1TC02506F. (影响因子: 8.1, Journal of Materials Chemistry C HOT Papers，2021 Journal of Materials Chemistry C most popular articles)

6. Wu, J.*; Liang, Y.; Zhou, Z.; Wu, Z.; Ding, H.; Huang, W.; Tao, K.*; Shi, W.*; Yang, B.-R.; Xie, X. Three-Dimensional Gold Nanoparticles-Modified Graphene Hydrogel for High-Sensitive NO2 and NH3 Detection with Enhanced Resistance to Humidity. Sensors and Actuators B: Chemical. 2021, 344, 130259. (影响因子: 9.2)

7. Wu, J.*; Huang, W.; Liang, Y.; Wu, Z.; Zhong, B.; Zhou, Z.; Ye, J.; Tao, K.*; Zhou, Y.; Xie, X. Self-Calibrated, Sensitive and Flexible Temperature Sensor based on 3D Chemically Modified Graphene Hydrogel. Advanced Electronic Materials 2021, 7, 2001084. (影响因子:7.6)

8. Chen, Z.; Yu, J.; Zeng, H.; Chen, Z.; Tao, K.*; Wu, J.*; Li, Y.* An Electret/Hydrogel-Based Tactile Sensor Boosted by Micro-Patterned and Electrostatic Promoting Methods with Flexibility and Wide-Temperature Tolerance. Micromachines 2021, 12, 1462.

2020年

1. Wu, J.*; Wu, Z.; Wei, Y.; Ding, H.; Huang, W.; Gui, X.; Shi, W.; Shen, Y.; Tao, K.*; Xie, X. Ultrasensitive and Stretchable Temperature Sensors Based on Thermally Stable and Self-Healing Organohydrogels. ACS Applied Materials & Interfaces 2020, 12, 19069-19079. (影响因子: 10.4，ESI高被引论文)

2. Wu, J.*; Wu, Z.; Huang, W.; Yang, X.; Liang, Y.; Tao, K.; Yang, B.-R.; Shi, W.*; Xie, X. Stretchable, Stable and Room-Temperature Gas Sensors Based on Self-Healing and Transparent Organohydrogel. ACS Applied Materials & Interfaces 2020, 12, 52070−52081. (影响因子: 10.4)

3. Ding, H.; Wei, Y.; Wu, Z.; Tao, K.; Ding, M.; Xie, X.; Wu, J.* Recent Advances in Gas and Humidity Sensors Based on 3D Structured and Porous Graphene and Its Derivatives. ACS Materials Letters 2020, 2, 1381-1411. (影响因子: 11.2)

4. Wu, J.*; Wu, Z.; Ding, H.; Wei, Y.; Huang, W.; Yang, X.; Li, Z.; Qiu, L.*; Wang, X*. Three-Dimensional Graphene Hydrogel Decorated with SnO2 for High-Performance NO2 Sensing with Enhanced Immunity to Humidity. ACS Applied Materials & Interfaces 2020, 12, 2634-2643. (影响因子: 10.4)

5. Wu, J.*; Ding, H.; Chen, Y.; Wei, Y.; Wu, Z.; Wang, N.; Xie, X.; Shi, W.*; Wang, X.* Revealing the Role of Surface Co-modification in Boosting the Gas Sensing Performance of Graphene Using Experimental and Theoretical Evidences. Sensors and Actuators B: Chemical 2020, 316, 128162. (影响因子: 9.2)

6. Tao, K.*; Yi, H.; Yang, Y.; Chang, H.; Wu, J.*; Tang, L.; Yang, Z.; Wang, N.; Hu, L.; Fu, Y.; Miao, J.; Yuan, W.* Origami-inspired electret-based triboelectric generator for biomechanical and ocean wave energy harvesting. Nano Energy 2020, 67, 104197. (影响因子: 19，ESI高被引论文)

7. Wu, J.*; Wu, Z.; Ding, H.; Wei, Y.; Huang, W.; Yang, X.; Li, Z.; Qiu, L.*; Wang, X.* Flexible, 3D SnS2/Reduced Graphene Oxide Heterostructured NO2 Sensor. Sensors and Actuators B: Chemical 2020, 305, 127445. (影响因子: 9.2，ESI高被引论文)

8 Wu, J.*; Yang, x.; Ding, H.; Wei, Y.; Wu, Z.; Tao, K.*; Yang, B.-R.; Liu, C.; Wang, X.; Feng, S.*; Xie, X. Ultrahigh Sensitivity of Flexible Thermistors Based on 3D Porous Graphene Characterized by Imbedded Microheaters. Advanced Electronic Materials 2020, 6, 2000451. (影响因子=7.6)

9. Han, S.; Liu, C.; Lin, X.; Zheng, J.; Wu, J.*; Liu, C.* Dual Conductive Network Hydrogel for a Highly Conductive, Self-Healing, Anti-Freezing, and Non-Drying Strain Sensor. ACS Applied Polymer Materials 2020, 2, 996-1005. (影响因子: 4.8，ESI高被引论文)

10. Wu, J.*; Wei, Y.; Ding, H.; Wu, Z.; Yang, X.; Li, Z.; Huang, W.; Xie, X.; Tao, K.*; Wang, X.* Green Synthesis of 3D Chemically Functionalized Graphene Hydrogel for High-Performance NH3 and NO2 Detection at Room Temperature. ACS Applied Materials & Interfaces 2020, 12, 20623-20632. (影响因子: 10.4)

11. Tao, K.*; Yi, H.; Yang, Y.; Tang, L.; Yang, Z.; Wu, J.*; Chang, H.; Yuan, W.* Miura-origami-inspired electret/triboelectric power generator for wearable energy harvesting with water-proof capability. Microsystems & Nanoengineering 2020, 6, 56. (影响因子: 8)

2019年

1. Wu, J.*; Wu, Z. X.; Xu, H. H.; Wu, Q.; Liu, C.; Yang, B. R.; Gui, X. Q.; Xie, X.; Tao, K.*; Shen, Y.*; Miao, J. M.; Norford, L. K. An intrinsically stretchable humidity sensor based on anti-drying, self-healing and transparent organohydrogels. Materials Horizons 2019, 6, 595-603.  (影响因子:15.7, ESI高被引论文, 2019 Material Horizon Most Popular Article，被引300+)

2. Wu, J.*; Wu, Z. X.; Han, S. J.; Yang, B. R.; Gui, X. C.; Tao, K.*; Liu, C.*; Miao, J. M.; Norford, L. K. Extremely Deformable, Transparent and High-Performance Gas Sensor Based on Ionic Conductive Hydrogel. ACS Applied Materials & Interfaces 2019, 11, 2364-2373. (影响因子: 10.4, ESI高被引论文)

3. Wu, J.*, Wu, Z.; Lu, X.; Han, S.; Yang, B.-R.; Gui, X.; Tao, K.*; Miao, J.; Liu, C.* Ultrastretchable and Stable Strain Sensors Based on Anti-freezing and Self-healing Ionic Organohydrogels for Human Motion Monitoring. ACS Applied Materials & Interfaces 2019, 11, 9405-9414. (影响因子: 10.4, ESI高被引论文，被引300)

4. Huang, K.#; Wu, J. #; Chen, Z.; Xu, H.; Wu, Z.; Tao, K.; Yang, T.; Wu, Q.; Zhou, H.; Huang, B.; Chen, H.; Chen, J.; Liu, C.* Nanostructured High-Performance Thin-Film Transistors and Phototransistors Fabricated by a High-Yield and Versatile Near-Field Nanolithography Strategy. ACS Nano 2019, 13, 6618−6630. (影响因子:18，#并列第一作者)

5. Wu, J.*; Wu, Z.; Ding, H.; Wei, Y.; Yang, X.; Li, Z.; Yang, B.-R.; Liu, C.; Qiu, L.*; Wang, X.*, Multifunctional and High-Sensitive Sensor Capable of Detecting Humidity, Temperature, and Flow Stimuli Using an Integrated Microheater. ACS Applied Materials & Interfaces, 2019, 11, 43383-43392. (影响因子: 10.4)

6. Wu, J.*; Wu, Z.; Ding, H.; Yang, X.; Wei, Y.; Xiao, M.; Yang, Z.; Yang, B.-R.; Liu, C.; Lu, X.; Qiu, L.*; Wang, X.* Three-Dimensional-Structured Boron- and Nitrogen-Doped Graphene Hydrogel Enabling High-Sensitivity NO2 Detection at Room Temperature. ACS Sensors 2019, 4, 1889-1898. (影响因子: 9.6)

7. Wu, J.*; Sun, Y.-M.*; Wu, Z.; Li, X.; Wang, N.; Tao, K.; Wang, G. P.* Carbon Nanocoil-Based Fast-Response and Flexible Humidity Sensor for Multifunctional Applications. ACS Applied Materials & Interfaces 2019, 11, 4242–4251. (影响因子: 10.4，ESI高被引论文)

8. Han, S.; Liu, C.; Huang, Z.; Zheng, J.; Xu, H.*; Chu, S.; Wu, J.*; Liu, C.* High-Performance Pressure Sensors Based on 3D Microstructure Fabricated by a Facile Transfer Technology. Advanced Materials Technologies 2019, 4, 1800640. (影响因子: 8.9)

9. Wu, J.*; Wu, Z.; Tao, K.; Liu, C.; Yang, B.-R.; Xie, X.; Lu, X.* Rapid-response, reversible and flexible humidity sensing platform using a hydrophobic and porous substrate. Journal of Materials Chemistry B 2019, 7, 2063-2073. (影响因子: 7.6)

10. Tao, K.; Yi, H.; Tang, L.; Wu, J.*; Wang, P.; Wang, N.; Hu, L.; Fu, Y.; Miao, J.*; Chang, H.* Piezoelectric ZnO thin films for 2DOF MEMS vibrational energy harvesting. Surface and Coatings Technology 2019, 359, 289-295. (影响因子: 4.9，ESI高被引论文)

2018年

1. Wu, J. #*; Li, Z.#; Liu, C.*; Tao, K.; Xie, X.; Khor, K. A.; Miao, J.*; Norford, L. K. 3D superhydrophobic reduced graphene oxide for activated NO2 sensing with enhanced immunity to humidity. Journal of Materials Chemistry A 2018, 6, 478-488. (影响因子: 14.5)

2. Wu, J.; Han, S. J.; Yang, T. Z.; Li, Z.; Wu, Z. X.; Gui, X. Q.; Tao, K.*; Miao, J.; Norford, L. K.; Liu, C.*; Huo, F. W. Highly Stretchable and Transparent Thermistor Based on Self-Healing Double Network Hydrogel. ACS Applied Materials & Interfaces 2018, 10, 19097-19105. (影响因子: 10.4)

3. Tao, K.; Tang, L. H.*; Wu, J.*; Lye, S. W.; Chang, H. L.; Miao, J. M. Investigation of Multimodal Electret-Based MEMS Energy Harvester With Impact-Induced Nonlinearity. Journal of Microelectromechanical Systems 2018, 27, 276-288. (ESI热点论文，高被引论文，获美国机械工程协会(ASME)智能材料与结构分会2019年度最佳论文奖，并入选2018年中国百篇最具影响力国际学术论文)

4. Wu, J.; Feng, S.; Li, Z.; Tao, K.; Chu, J.*; Miao, J.*; Norford, L. K. Boosted sensitivity of graphene gas sensor via nanoporous thin film structures. Sensors and Actuators B: Chemical 2018, 255, 1805-1813. (影响因子: 9.2)

5. Liu, C.; Han, S.; Xu, H.; Wu, J.*; Liu, C.* Multifunctional Highly Sensitive Multiscale Stretchable Strain Sensor Based on a Graphene/Glycerol-KCl Synergistic Conductive Network. ACS Applied Materials & Interfaces 2018, 10, 31716-31724. (影响因子: 10.4)

2017年以前

1. Wu, J.#; Feng, S.#*; Wei, X.; Shen, J.; Lu, W.; Shi, H.; Tao, K.; Lu, S.; Sun, T.; Yu, L.; Du, C.; Miao, J.*; Norford, L. K. Facile Synthesis of 3D Graphene Flowers for Ultrasensitive and Highly Reversible Gas Sensing. Advanced Functional Materials 2016, 26, 7462-7469. (影响因子:19.9)

2. Wu, J.; Tao, K.; Guo, Y.; Li, Z.; Wang, X.; Luo, Z.; Feng, S.*; Du, C.; Chen, D.; Miao, J.*; Norford, L. K. 3D Chemically Modified Graphene Hydrogel for Fast, Highly Sensitive, and Selective Gas Sensor. Advanced Science 2016, 3, 1600319. (影响因子:17.5)

3. Wu, J.; Tao, K.; Zhang, J.; Guo, Y.; Miao, J.*; Norford, L. K. Chemically functionalized 3D graphene hydrogel for high performance gas sensing. Journal of Materials Chemistry A 2016, 4, 8130-8140. (影响因子:14.5)

4. Wu, J.; Tao, K.; Miao, J.; Norford, L. K., Improved Selectivity and Sensitivity of Gas Sensing Using 3D Reduced Graphene Oxide Hydrogel with Integrated Microheater. ACS Applied Materials & Interfaces 2015, 7, 27502-27510. (影响因子: 10.4)

5. Jin Wu, Kai Tao, Jianmin Miao* and Leslie K. Norford, Enhanced Gas Sensing by 3D Water Steamed Graphene Hydrogel, Solid State Electronics, 2017, 138(2017) 101-107.

6. Jin Wu, Chihao Liow, Kai Tao, Yuanyuan Guo, Xiaotian Wang and Jianmin Miao,* Large-Area Sub-wavelength Optical Patterning via Long-Range Ordered Polymer Lens Array. ACS Applied Materials & Interfaces 2016, 8, 16368-16378. (影响因子: 10.4)

7. Jin Wu, Kai Tao, Jianmin Miao*, Production of centimeter-scale sub-wavelength nanopatterns by controlling the light path of adhesive photomask. Journal of Materials Chemistry C, 2015, 3, 6796-6808. (影响因子: 8.1)

8. Jin Wu, Jianmin Miao*, Production of Centimeter-Scale Gradient Patterns by Graded Elastomeric Tip Array. ACS Applied Materials & Interfaces 2015, 7, 6991-7000. (影响因子: 10.4)

9. Jin Wu, Xiaoli Zan, Shaozhou Li, Yayuan Liu, Chenlong Cui, Binghua Zou, Weina Zhang, Hongbo Xu, Hongwei Duan, Danbi Tian, Wei Huang, Fengwei Huo*, In situ synthesis of large-area single sub-10 nm nanoparticle arrays by polymer pen lithography. Nanoscale 2014, 6, 749-752. (IF=8.3)

10. Jin Wu, Yayuan Liu, Yuanyuan Guo, Shuanglong Feng, Binghua Zou, Hui Mao, Cheng-han Yu, Danbi Tian, Wei Huang, and Fengwei Huo*, Centimeter-scale sub-wavelength photolithography using metal-coated elastomeric photomasks with modulated light intensity at the oblique sidewalls. Langmuir, 2015, 31, 5005-5013. (IF=3.683)

11. Jin Wu, Cheng-han Yu, Shaozhou Li, Binghua Zou, Yayuan Liu, Xiaoqun Zhu, Yuanyuan Guo, Hongbo Xu, Weina Zhang, Liping Zhang, Bin Liu, Danbi Tian, Wei Huang, Michael P. Sheetz and Fengwei Huo*, Parallel Near-field Photolithography with Metal-coated Elastomeric Masks. Langmuir, 2015, 31, 1210-1217. (IF=3.683)

12. J. Wu, J. Y. Yang,* H. Zhang, J. S. Zhang, S. L. Feng, M. Liu, J. Y. Peng, W. Zhu, T. Zou, Fabrication of Ag–Sn–Sb–Te based thermoelectric materials by MA-PAS and their properties. Journal of Alloys and Compounds 2010, 507, 167-171. (IF=6)

13. J. Wu, J.-Y. Yang,* J.-S. Zhang, G. Li, J.-Y. Peng, Y. Xiao, L.-W. Fu, Q.-Z. Liu, Thermoelectric Properties of Sn-Substituted AgPbmSbTem+2 via the Route of Mechanical Alloying and Plasma-Activated Sintering. Journal of Electronic Materials 2012, 41, 1100-1104.

14. R. C. Luo, J. Wu, N. Dinh, and C. H. Chen, Gradient Porous Elastic Hydrogels with Shape-memory Property and Anisotropic Responses for Programmable Locomotion, Advanced Functional Materials, 2015, 25, 7272-7279.

部分授权专利：

1. Fengwei Huo (霍峰蔚); Jin Wu (吴进) ; Apparatus and Methods for Investigating a Sample Surface, 2019-1-1, 美国, 专利号：US 10,168,353 B2

2. 吴进; 吴子轩; 气体传感器及其应用、设备和气体传感器的制备方法, 授权日：2020-8-25,中国, 专利号：ZL201811614104.6. 

3. 吴进; 吴子轩; 湿度传感器及其应用、设备和湿度传感器的制备方法, 授权日：2020-8-25, 中国, 专利号：ZL201811614121.X. 

4. 吴进; 刘川; 李敏敏; 一种具有微纳图形结构的掩膜板制作方法和纳米光刻方法, 授权日：2021-1-22,中国, 专利号：ZL201810202020.5 

5. 吴进; 吴子轩; 一种基于薄膜的电容式温度传感器及其制作方法, 申请日：2020-5-22, 中国, 专利号：ZL202010438026.X.

6. 吴进; 杨醒; 吴子轩;一种碳材料复合凝胶及其制备方法和应用, 申请日：2020-6-8, 中国, 专利号：ZL202110636459.0 

7. 吴进; 黄文轩; 吴子轩, 光学成像系统、方法、装置及存储介质, 授权日：2020.9.29, 中国, 专利号：ZL201811365902.X 

8. 吴进,吴子轩,容莉敏,杨靖澜,韦耀铭; 一种可伸缩NO2气体传感器及其制备方法和应用; 中国，专利号：ZL2021109777129；申请日：2021-08-24；

9. 吴进,梁誉苧,吴子轩,周子敬；一种双网络有机凝胶及其制备方法和应用，申请日：2021-08-04, 中国, 申请号：2021108935604 

10. 吴进,黄文溪,韦耀铭；一种基于凝胶的透明可拉伸自供电硫化氢气体传感器；中国，申请号：2022109910967，专利号：ZL202210991096.7

Jin Wu

Associate Professor

State Key Laboratory of Optoelectronic Materials and Technologies and the Guangdong Province Key Laboratory of Display Material and Technology, School of Electronics and Information Technology, 亚洲av , Guangzhou 510275, China

Education Background

2011-2014   Nanyang Technological University (with Prof. Fengwei Huo), Singapore  PhD

2008-2011   Huazhong University of Science and Technology (with Prof. Junyou Yang), China  Master

2004-2008   Wuhan University of Technology, China   Bachelor

Professional

2017-now  School of Electronics and Information Technology, 亚洲av , Associate Professor

2014-2017  Nanyang Technological University, Postdoctoral Research Fellow, Singapore-MIT Alliance for Research and Technology (SMART) project, MIT advisor: Prof. Leslie Keith Norford，Singapore advisor: Prof. Jianmin Miao

Research Interest

Flexible/stretchable/wearable electronic devices

gel-based electronics

Electron/ionic skin

Gas/humidity sensors, temperature/strain/pressure sensors, multifunctional sensor and integrated system，for biomedical applications and environmental monitoring