*研究方向与成果：

l   纳米纤维基柔性传感器和电子皮肤制备研究及其在生理体征与人机交互等领域应用研发；

l   累计以第一作者/共同一作/通讯作者发表论文33篇（包括17篇中科院一区Top期刊，2篇ESI前1%高被引文章），包括Nano Micro Letters、InfoMat、Advanced Fiber Materials、Nano Energy、Chemical Engineering Journal、ACS Sensors、ACS Applied Materials&Interfaces、Nanoscale、Advanced Electronic Materials、Advanced Materials Interfaces等高水平期刊；

l   累计撰写、申请发明专利17项，其中5项已授权，其余均在实质审查中；

l   担任Exploration期刊青年编委；中国微米纳米学会高级会员；

l   受邀担任国际SCI检索期刊Nano Energy、Chemical Engineering Journal、ACS Applied Materials & Interfaces、Advanced Materials Interfaces、Measurement等的审稿人；

l   连续两年获得2021年、2022年博士研究生国家奖学金，2022年获得天津市创新奖学金，2023年获得河北省优秀毕业生，2018年获得天津市王克昌文化科技奖学金，2022年获得河北工业大学学术之星，2022年获得河北工业大学三好学生荣誉称号，连续两年获得2021年、2022年河北工业大学机械工程学院十佳学术之星荣誉称号。

*文章发表：

[1]    Peng Wang, Yu Lv, Jingle Duan, Guifen Sun, Chuizhou Meng, Yang Li, Shijie Guo. Skin-mountable thermally responsive phase-change self-adhesive hydrogel for long-term high-fidelity electrocardiogram recording and far-distance non-contact sensing. Science Advances (一作, Under review).

[2]    Peng Wang, Guoqing Wang, Guifen Sun, Chenchen Bao, Yang Li, Chuizhou Meng, Zhao Yao. A flexible-integrated multimodal hydrogel-based sensing patch. Nano-Micro Letters, 2025, 17, 8, 156. (一作, , SCI, 中科院一区Top, IF:31.6);

[3]    Peng Wang, Guifen Sun, Shuaichuang Hua, Wei Yu, Chuizhou Meng, Qing Han, Jeonghyun Kim, Shijie Guo, Guozhen Shen, Yang Li. Multifunctional all-nanofiber cloth integrating personal health monitoring and thermal regulation capabilities. Infomat, 2025, e12629.  (一作, SCI, 中科院一区Top, IF:22.7);

[4]    Peng Wang, Yu Lv, Jingle Duan, Guifen Sun, Chuizhou Meng, Yang Li, Shijie Guo. A thermally responsive phase-change hydrogel for skin-mountable multifunctional sensors. Nano Energy, 2025, 136 Part A, 110199. (一作, SCI, 中科院一区Top, IF:16.8);

[5]  Kaixin Wan, Yurui Li, Guifen Sun, Teng Liu, Peng Wang*, Chuizhou Meng, Yang Li. Permeable dual-mode pressure-temperature sensing textile with sweat adsorption and evaporation capability. ACS Sensors, 2025. (通讯, SCI, 中科院一区Top, IF:8.3);

[6]    Peng Wang, Yurui Li, Jinjing Cao, Guifen Sun, Haiyan Shao, Xiuli Fu, Ying Meng, Chuizhou Meng, Yang Li. A 3D direct written strain-insensitive temperature sensor based on a multi-polygonal structure for human temperature monitoring. Nano Energy, 2024, 131, Part A, 110199. (一作, SCI, 中科院一区Top, IF:16.8);

[7]    Peng Wang, Xiaodan Li, Guifen Sun, Guoqing Wang, Qing Han, Chuizhou Meng, Zhonghe Wei, Yang Li. Natural human skin-inspired wearable and breathable nanofiber-based sensors with excellent thermal management functionality. Advanced Fiber Materials, 2024, 6, 4, 464. (一作, SCI, 中科院一区Top, IF:17.2);

[8]    Peng Wang^*, Jinjing Cao, Yurui Li, Guifen Sun, Haiyan Shao, Chuizhou Meng. Highly breathable and sensitive iontronic wearable sensor based on porous ionic electrolyte and microstructure for human movement sensing. Chemical Engineering Journal, 2024, 495, Part 1, 153525. (一作, SCI, 中科院一区Top, IF:13.3)；

[9]    Guifen Sun, Zhendong Sun, Peng Wang^*, Zhengyan Zhang, Chuizhou Meng, Shijie Guo and Yang Li.  Breathable, hydrophobic and antibacterial bioinspired fabric pressure sensors for comfortable skin-mountable health monitoring. Chemical Engineering Journal. 2025, 506, Part 1, 159808. (第一通讯, SCI, 中科院一区Top, IF:13.3)；

[10] Guoqing Wang, Jingle Duan, Guifen Sun, Peng Wang^*, Chuizhou Meng, Derong Duan, Longxiao Zhang, Hao Kan, Yang. Li. Biomimetic breathable nanofiber electronic skins with temperature-controlled self-adhesive and directional moisture-wicking properties for bifunctional pressure and non-contact sensing. Nano Energy, 2024, 128, Part A, 109779. (第一通讯, SCI, 中科院一区Top, IF:16.8)；

[11] Jingle Duan, Gang Yue, Honghao Li, Teng Liu, Peng Wang^*, Wei Yu, Peng Shang, Chuizhou Meng, Shijie Guo. Self-powered noncontact triboelectric nanogenerators with microstructured square-loop surface and dielectric electron-blocking layer for far-distance motion perception and trajectory tracking. Nano Energy, 2024, 128, Part A, 109860. (通讯作者, SCI, 中科院一区Top, IF:16.8)；

[12] Peng Wang, Gengsheng Liu, Guifen Sun, Chuizhou Meng, Guozhen Shen, Yang Li. An integrated bifunctional pressure‒temperature sensing system fabricated on a breathable nanofiber and powered by rechargeable zinc-air battery for long-term comfortable health care monitoring. Advanced Fiber Materials, 2024, 5, 24, 398. (一作, SCI, 中科院一区Top, IF:17.2);

[13] Jinjing Cao, Guifen Sun, Peng Wang^*, Chuizhou Meng. Microstructured CNTs/Cellulose aerogel for a highly sensitive pressure sensor. ACS Applied Materials & Interfaces, 2024, 5, 24, 398. (第一通讯, SCI, 中科院二区Top, IF:8.3);

[14] Jonas Hilário, Haihang Wang, Peng Wang^*, Wei Yu and Chuizhou Meng. Modeling and simulation of microstructure geometry and material type on flexible capacitive pressure sensors by finite element analysis.  IEEE Sensors Journal, 2025, (第一通讯, SCI, 中科院二区, IF:4.3);

[15] Jonas Hilário, Peng Wang^*, Chuizhou Meng.  Flexible, breathable and hydrophobic iontronic tactile sensors for comfortable skin-attachable health monitoring. Materials Letters, 2024, 382, 137883. (第一通讯, SCI, 中科院四区, IF:2.7);

[16] Guifen Sun, Peng Wang^*, Chuizhou Meng. Flexible and breathable iontronic tactile sensor with personal thermal management ability for a comfortable skin-attached sensing application. Nano Energy, 2023, 118, Part A, 109006. (第一通讯, SCI, 中科院一区Top, IF:16.8)；

[17] Peng Wang, Jun Liu, Wei Yu, Guoxian Li, Chuizhou Meng, Shijie Guo. Flexible, stretchable, breathable and sweatproof all-nanofiber iontronic tactile sensor for continuous and comfortable monitorsing of the knee joint motion. Nano Energy, 2022, 103, Part A, 107768. (一作, SCI, 中科院一区Top, IF: 16.8)；

[18] Peng Wang, Wei Yu, Guoxian Li, Chuizhou Meng, Shijie Guo. Printable, flexible, breathable and sweatproof bifunctional sensors based on an all-nanofiber platform for fully decoupled pressure-temperature sensing application. Chemical Engineering Journal, 2023, 452, Part 1, 139174. (一作, SCI, 中科院一区Top, IF:13.3, ESI前1%高被引文章)；

[19] Guifen Sun, Peng Wang, Yongxiang Jiang, Hongchang Sun, Teng Liu, Guoxian Li, Wei Yu, Chuizhou Meng, Shijie Guo. Bioinspired flexible, breathable, waterproof and self-cleaning iontronic tactile sensors for special underwater sensing applications. Nano Energy, 2023, 110, Part A, 108367. (共同一作, SCI, 中科院一区Top, IF: 16.8, ESI前1%高被引文章)；

[20] Peng Wang, Guifen Sun, Wei Yu, Guoxian Li, Chuizhou Meng, Shijie Guo. Wearable, ultrathin and breathable tactile sensors with an integrated all-nanofiber network structure for highly sensitive and reliable motion monitoring. Nano Energy, 2022, 104, Part A, 107883. (一作, SCI, 中科院一区Top, IF: 16.8)；

[21] Peng Wang, Guoxian Li, Wei Yu, Chuizhou Meng, Shijie Guo. Flexible pseudocapacitive iontronic tactile sensor based on microsphere‐decorated electrode and microporous polymer electrolyte for ultrasensitive pressure detection. Advanced Electronic Materials, 2022, 8, 7, 2101269. (一作, SCI, JCR一区, IF:5.3, Hot Topic: Flexible Electronics专辑收录)；

[22] Peng Wang, Guoxian Li, Jun Liu, Zhanrui Hou, Chuizhou Meng, Shijie Guo, Changhong Liu, Shoushan Fan. Tailorable capacitive tactile sensor based on stretchable and dissolvable porous silver nanowire/polyvinyl alcohol nanocomposite hydrogel for wearable human motion detection. Advanced Materials Interfaces, 2021, 8, 20, 2100998. (一作, SCI, JCR二区, IF:4.3, 封面文章）；

[23]  Peng Wang, Guoxian Li, Wei Yu, Chuizhou Meng, Shijie Guo. Color‐customizable, stretchable, self‐healable and degradable ionic gel for variable human‐motion detection via strain, pressure, and torsion. Advanced Materials Interfaces, 2022, 9, 11, 2102426. (一作, SCI, JCR二区, IF:4.3）；

[24]  Peng Wang, Guoxian Li, Jun Liu, Zhanrui Hou, Chuizhou Meng, Shijie Guo. Flexible, freestanding, ultrasensitive, and iontronic tactile sensing textile. ACS Applied Electronic Materials, 2021, 3, 5, 2195. (一作, SCI, JCR二区, IF:4.3)；

[25]  Peng Wang, Jun Liu, Yurui Li, Guoxian Li, Wei Yu, Yanxi Zhang, Chuizhou Meng, Shijie Guo. Recent advances in wearable tactile sensors based on electrospun nanofiber platform. Advanced Sensor Research, 2023, 3, 1, 2200047. (一作, 综述文章)；

[26]  Jonas Hilário, Berlinda Marcos Macucule, Peng Wang^*, Wei Yu, Chuizhou Meng. Flexible Iontronic Tactile Sensors Based on Silver Nanowire Electrode with Sandpaper-Roughened Surface and Ionic Liquid Gel Electrolyte with Porous Foam Structure for Wearable Sensing Applications. ACS Applied Electronic Materials, 2024, 3, 5, 5433. (第一通讯, SCI, JCR二区, IF:4.3)；

[27]  Guifen Sun, Yongxiang Jiang, Hongchang Sun, Peng Wang^*, Chuizhou Meng, Shijie Guo. Flexible, Breathable, and Hydrophobic Iontronic Tactile Sensors Based on a Nonwoven Fabric Platform for Permeable and Waterproof Wearable Sensing Applications. ACS Applied Electronic Materials, 2023, 5, 11, 6477. (通讯作者, SCI, JCR二区, IF:4.3)；

[28] Guifen Sun, Peng Wang, Yongxiang Jiang, Hongchang Sun, Chuizhou Meng. Intrinsically flexible and breathable supercapacitive pressure sensor based on MXene and ionic gel decorating textiles for comfortable and ultrasensitive wearable healthcare monitoring. ACS Applied Electronic Materials, 2022, 4, 4, 1958. (共同一作, SCI, JCR二区, IF:4.3)；

[29]  Jun Liu, Peng Wang, Guoxian Li, Li Yang, Wei Yu, Chuizhou Meng, Shijie Guo. A highly stretchable and ultra-sensitive strain sensing fiber based on a porous core–network sheath configuration for wearable human motion detection. Nanoscale, 2022, 14, 4, 12418. (共同一作, SCI, JCR一区, IF:5.8)；

[30]  Yudong Tang, Peng Wang, Guoxian Li, Guoyuan Wang, Wei Yu, Chuizhou Meng, Shijie Guo. Flexible and ultra-sensitive planar supercapacitive pressure sensor based on porous ionic foam. Advanced Engineering Materials, 2022, 25, 1, 2200814. (共同一作, SCI, JCR二区, IF:3.4)；

[31]  Yurui Li, Peng Wang, Chuizhou Meng, Wenqiang Chen, Longyuan Zhang, Shijie Guo. A brief review of miniature flexible and soft tactile sensors for interventional catheter applications. Soft Science, 2022, 2, 6, 1. (共同一作, 综述文章)；

[32]  Guifen Sun, Peng Wang, Yongxiang Jiang, Hongchang Sun, Chuizhou Meng, Shijie Guo. Recent advances in flexible and soft gel-based pressure sensors. Soft Science, 2022, 2, 17, 1. (共同一作, 综述文章)；

[33] 孙桂芬, 王鹏; 蒋永翔, 刘珺, 孙宏昌, 孟垂舟, 郭士杰. 柔性纤维基触觉传感器研究进展. 河北工业大学学报, 2022, 51, 4, 1. (共同一作, 综述文章, 校内核心)。

*发明专利申请：

[1]     孟垂舟；王鹏；孙桂芬；张昊天；高建卫；郭士杰；李国显；周鸿超，一种柔性电缆型触觉传感器: 202010310828.2, 2022-03-01（已授权）；

[2]     孟垂舟；王鹏；孙桂芬；高建卫；张昊天；杨丽；郭士杰；李国显；林伟民，一种基于超级电容传感原理的一体式柔性可拉伸触觉传感器: 202010310831.4, 2022-05-24（已授权）；

[3]     孟垂舟；王鹏；孙桂芬；高建卫；张昊天；郭士杰；李国显，一种具有高拉伸率的聚乙烯醇海绵及其制备方法: 202010491547.1, 2022-06-21（已授权）；

[4]     孟垂舟；王鹏；孙桂芬；张昊天；高建卫；刘吉晓；郭士杰；候占瑞，一种基于超级电容传感原理的叉指型对电极式柔性触觉传感器及其制备方法: 202010311401.4, 2023-3-26（已授权）；

[5]     孟垂舟；王鹏；李国显；刘珺；候占瑞；郭士杰，一种柔性自支撑纤维编织型触觉传感器: 202110255774.9, 2021-03-09（实质审查）；

[6]     孟垂舟；王鹏；孙桂芬；李国显；刘珺；郭士杰，一种基于赝电容原理的微结构化触觉传感器及其制备方法: 202111373722.8, 021-11-19（实质审查）；

[7]     孟垂舟；王鹏；孙桂芬；李国显；禹伟；郭士杰，一种超薄可呼吸完全解耦的柔性压力-温度双模式传感器: 202210630552.5, 022-6-10（实质审查）；

[8]     孟垂舟；王鹏；孙桂芬；李国显；禹伟；郭士杰，一种柔性触觉传感器及其制备方法: 202210797338.9, 22-7-8（实质审查）；

[9]     孟垂舟；王鹏；孙桂芬；李国显；禹伟；郭士杰，具有贴附性和透气性的柔性触觉传感器及其制备方法: 202211069319.0. 2022-9-2（实质审查）；

[10]  王鹏；李阳；孙桂芬；岳文静；孟垂舟；于瑾；张龙肖，一种透气性电子皮肤及其制备方法：202311315604.0, 2023-10-11（实质审查）；

[11]  王鹏；李阳；孙桂芬；岳文静；张春伟；高嵩；阚皞；孟皓天；王国庆，一种自供电传感系统及其制备方法：202311612395.6, 2023-11-28（实质审查）；

[12]  王鹏；李阳；孙桂芬；岳文静；朱宇坤；孟垂舟；禹伟；张龙肖，一种具有双模式热管理与健康检测功能的纳米纤维基材料及其制备方法与应用：202410160503.9, 2024-02-02（实质审查）；

[13]  王鹏；王国庆；孙桂芬；李阳；岳文静；阚皞；朱宇坤，一种用于非接触和压力传感的吸湿排汗多功能传感器：202410601253.8, 2024-05-15（实质审查）；

[14]  王鹏；孙桂芬；李英文，一种具有热管理功能的微结构化纳米纤维柔性传感器：202422561783.2, 2024-10-23（实质审查，实用新型）；

[15]  王鹏；王国庆；孙桂芬；李阳；岳文静；阚皞；朱宇坤，一种温控自粘和定向吸湿排汗的多功能柔性传感器：202421108704.6, 2024-05-21（实质审查）；

[16]  王鹏；王国庆；孙桂芬；李阳，一种柔性多模态水凝胶传感贴片及制备方法和应用：202510187461.2，2025-2-20（初审）；

[17]  王鹏；孙桂芬；张龙肖；于瑾，一种用于锻压机床的上料装置：202520218522.2，2025-2-12（初审，实用新型）。

*主持与参与科研项目：

[1]      济南大学优秀博士项目：纳米纤维基柔性传感器设计与制备，15万，2023.11-2025.11（主持）；

[2]      企业技术开发项目：用于生理健康监测的柔性传感系统设计与制备，300万，2024.4-2029.4（主持）；

[3]      国家重点研发计划项目：失能老人智能照护机器人系统关键技术及产品研发 下设课题二 智能在床照护机器人技术与产品研发（2022YFC3601402），205万元，2023.01-2025.12（参与）；

[2]  天津市自然科学基金重点项目：面向健康与运动监测穿戴式多功能传感器柔性印刷制造关键技术（22JCZDJC00630），20万元，2022.10-2025.09（参与）。

*学术会议报告：

[1]  2024先进传感技术与应用交流会，多功能纤维基柔性传感器设计与制备，邀请报告（王鹏），中国四川德阳， 2024年11月；

[2]  第四届新型纤维材料与应用前沿论坛，凝胶纤维基柔性传感器设计与制备，邀请报告（王鹏），中国苏州， 2024年10月；

[3]  微纳传感技术与检测创新论坛(2024)，纳米纤维基柔性传感器设计与制备，邀请报告（王鹏），中国武汉， 2024年10月；

[4]  柔性电子技术与应用创新论坛（2024），纳米纤维基柔性传感器设计与制备，邀请报告（王鹏），中国深圳， 2024年5月；

[5]  微纳传感技术与检测创新论坛（2023），纳米纤维基柔性传感器，邀请报告（王鹏），中国厦门， 2023年11月；

[6]  iCANX2022 科技大会，Flexible pseudocapacitive iontronic tactile sensor based on microsphere decorated electrode and microporous polymer electrolyte for ultra-sensitive pressure detection (P. Wang; C. Meng)，海报展示（优秀展示奖），中国武汉，2022年4月；

[7]  第七届柔性电子国际研讨会（The 7th International Symposium of Flexible & Stretchable Electronics），Flexible, freestanding, ultra-sensitive, and iontronic tactile sensing textile (     P. Wang; G. Li; J. Liu; Z. Hou; C. Meng; S. Guo.), 海报展示，中国武汉，2021年6月。