杨婷婷

副研究员

硕士生导师

学历:博士研究生毕业

学位:工学博士学位

所在单位:机械工程学院

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科研成果

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论文成果

    2024

    1Chunqiao Fu, Jian Zhou, Xulei Lu, Haochen Feng, Yong Zhang, Kedong Shang, Zhongbao Jiang, Yuming Yao, Qi-Chang He* and Tingting Yang*, A long life moisture-enabled electric generator based on ionic diode rectification and electrode chemistry regulation. Advanced Science202305530.(IF=15.1)

    2 Jiahao Fang, Xiang Zhang, Peng Duan, Zhongbao Jiang, Xulei Lu, Chunqiao Fu, Yong Zhang, Yuming Yao, Kedong Shang, Jieyang Qin, Yangfan Liu, Tingting Yang*, Efficient and cold-tolerant moisture-enabled power generator combining ionic diode and ionic hydrogel, Materials Horizons, 2024, 11(5): 1261–1271. (IF=13.3)

    3 Yangfan Liu, Changliu He, Jiahao Fang, Jian Zhou, Kedong Shang, Xiaobo Pu, Linmao Qian*, Tingting Yang*,A tri-modal tactile sensor based on porous ionic hydrogel for decoupled sensing of temperature and pressure, Materials Today Physics2024, 41, 101331. (IF=11.5)

    4 Yong Zhang, Dongxu Long, Huiling Feng, Kedong Shang, Xulei Lu, Chunqiao Fu, Zhongbao Jiang, Jiahao Fang, Yuming Yao, Qi-Chang He*, Tingting Yang*, Bioinspired ion channel receptor based on hygroelectricity for precontact sensing of living organism, Biosensors and Bioelectronics, 2024, 247: 115922. (IF=12.6)

    2023

    1 Yuming Yao, Xulei Lu, Chunqiao Fu, Yong Zhang, Jiahao Fang, Jieyang Qin, Qi-Chang He*, Tingting Yang*, Patterned coating of ionic diode arrays toward flexible moist-electric generators to power wireless sensor nodes, Advanced Functional Materials, 202, 34(9).  (IF=19)

    2 Pengfei Zhu#, Kedong Shang#, Yinpeng Huang, Zhongbao Jiang, Jian Zhou, Xulei Lu, Tingting Yang*,  Light-driven amphibious mini soft robot mimicking the locomotion gait of inchworm and water strider, Advanced Intelligent Systems, 2023; 6 (1) .  (IF=7.4)

    3 Kedong Shang, Changliu He, Jian Zhou, Peng Ling, Xulei Lu, Chunqiao Fu, Yong Zhang, Chuan Tang, Linmao Qian*, Tingting Yang*, Optical and electrical dual-mode tactile sensor with interlinked interfaces recording normal force and slip for closed-loop robotics, Chemical Engineering Journal, 2023, 475:146279.  (IF=15.1)

    4 Yuehua Huang, Zhonglin Zeng, Tao Liang, Jing Li, Ziqi Liao, Junjun Li and Tingting Yang*, An encapsulation strategy of graphene humidity sensor for enhanced anti-interference ability, Sensors And Actuators B 2023, 396: 134517. (IF=8.4)

    5 Jian Zhou, Chunqiao Fu, Jiahao Fang, Kedong Shang, Xiaobo Pu, Yong Zhang, Zhongbao Jiang, Xulei Lu, Changliu He, Lingxu Jia, Yuming Yao, Linmao Qian* and Tingting Yang*, Prosthetic finger for fingertip tactile sensing via flexible chromatic optical waveguides, Materials Horizons, 2023, 10: 4940. (IF=13.3)

    6 Changliu He, Tingting Yang*, Jiahao Fang, Xiaobo Pu, Kedong Shang, Guo Tian, Xulei Lu, Jianbing Wu, Weiqing Yang, Linmao Qian*, Tensegrity-inspired triboelectric nanogenerator for broadband and impact-resistive vibration sensing, Nano Energy, 2023, 109: 108279. (IF=19.069)

    7 Zhongbao Jiang, Tingting Yang*, Xulei Lu, Chunqiao Fu, Yong Zhang, Kedong Shang, Jian Zhou, Changliu He, Pengfei Zhu, Qi-Chang He*, Simultaneous electricity generation and steam production from a wide range of salinity by using unique nanofluidic diode, Nano Energy, 2023, 108: 108220. (IF=19.069)

    8 Changbao Xu#, Chunqiao Fu#, Zhongbao Jiang, Tingting Yang*, Mingyong Xin*. Hygroelectric generator based on antisymmetric modification of graphene spheres with ionic hydrogels, ACS Applied Nano Materials, 2023, 6:5930 (IF=6.14)

    2022

    1 Yong ZhangTingting Yang*, Kedong Shang, Fengmei Guo,Yuanyuan Shang, Shulong Chang, Licong Cui, Xulei Lu, Zhongbao Jiang, Jian Zhou, Chunqiao Fu, Qi-Chang He*, Sustainable power generation for at least one month from ambient humidity using unique nanofluidic diode. Nature Communications, 2022, 13:3484. (IF=17.694)

    2 Xulei Lu, Tingting Yang*, Chunqiao Fu, Zhongbao Jiang, Yong Zhang, Kedong Shang, Changliu He, Jian Zhou, Qi-Chang He*. Hierarchically Porous Fiber-Based Nanofluidic Diode as an Efficient Multimode Hygroelectric Generator, Advanced Energy Materials. 2022, 12, 2202634. (IF=29.698)

    3 Tingting Yang, Xin Jiang, Yuehua Huang, Qiong Tian, Li Zhang, Zhaohe Dai, Hongwei Zhu*. Mechanical sensors based on two-dimensional materials: Sensing mechanisms, structural designs and wearable applications. iScience, 2022, 25(1): 103728. (IF=6.107)

    4 Kedong Shang, Tingting Yang*, Chuanfei Guo, Xiaobo Pu, Yong Zhang, Xulei Lu, Changliu He, Jian Zhou, Lei Wu, Bingjun Yu, Liang Jiang, Linmao Qian*. Interfacial Enhanced 1D–2D Composite toward Mechanically Robust Strain Sensors. Advanced Materials Interfaces, 2022,9(30): 2201201. (IF=6.389)

    5 Xiaobo Pu, Lingxu Jia, Kedong Shang, Lei Chen, Tingting Yang*, Liangwu Chen, Libin Gao, Linmao Qian. A New Strategy for Disc Cutter Wear Status Perception Using Vibration Detection and Machine Learning. Sensors, 2022, 22(17): 6686. (IF=3.847)

    6 Lingxu Jia, Xiaobo Pu, Kedong Shang, Lei Chen, Tingting Yang*, Liangwu Chen,Libin Gao, Linmao Qian*. A Deep Learning Combination Model to Predict TBM Disc-Cutter Wear Status. In 17th IEEE Conference on Industrial Electronics and Applications, ICIEA 2022, December 16, 2022  -  December 19, 2022; ICIEA 2022 - Proceedings of the 17th IEEE Conference on Industrial Electronics and Applications; Institute of Electrical and Electronics Engineers Inc.: Chengdu, China, 2022; pp 1469–1474.

    2021

    1. Yuehua Huang*, Yi Xiang, Wentao Ren, Fengji Li, Chuancheng Li, Tingting Yang*. Enhancing the sensitivity of crack-based strain sensor assembled by functionalized graphene for human motion detection. Science China Technological Sciences, 2021, 64(8): 1805-1813. (IF= 3.903)

    2020

    1. Tingting Yang*, Wen Wang, Yuehua Huang, Xin Jiang, Xuanliang Zhao. Accurate monitoring of small strain for timbre recognition via ductile fragmentation of functionalized graphene multilayers. ACS Applied Materials & Interfaces, 2020, 12(51): 57352-57361. (IF=10.383)

    2. Yuehua Huang, Junjun Li, Yi Xiang, Nanfeng Li, Fengji Li, Tingting Yang*. Asymmetrical layered assemblies of graphene oxide for programmable actuation devices. Smart Materials and Structures, 2020, 29(11): 115048. (IF=4.131)

    2019

    1. Tingting Yang, Yijia Du, Zhanqiang Xing, Weiliang Ji, Yu Chen, Xiangyu Sun, Dongdong Gong, Lifang Liu*. PZT micromachined piezoelectric ultrasonic transducers with good coupling to solids. In: 2019 20th International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII (TRANSDUCERS & EUROSENSORS XXXIII). IEEE, 2019. p. 877-880.

     

    2017年以前

    1. Tingting Yang, D. Xie, Z. H. Li, H. W. Zhu*. Recent advances in wearable tactile sensors: materials, sensing mechanisms and device performance. Materials Science and Engineering: R: Report, 2017, 115:1. (ESI高被引论文) (IF=33.667)

    2. Tingting Yang, Z. H. Li*, H. W. Zhu*, et al. Tactile sensing system based on arrays of graphene woven microfabrics: electromechanical behavior and electronic skin application. ACS Nano, 2015, 9 (11): 10867.  (IF=18.027)

    3. Tingting Yang, Z. H. Li*, H. W. Zhu*, et al. Structural engineering of gold thin films with channel cracks for ultrasensitive strain sensing. Materials Horizons, 2016, 3: 248.  (IF=15.717)

    4. X. M. Li#, Tingting Yang#(共同一作), C. T. Lin*, Y. Fang*, H. W. Zhu*, et al. Large-area ultrathin graphene films by single-step Marangoni self-assembly for highly sensitive strain sensing application.  Advanced Functional Materials, 2016, 26 (9): 1322. (ESI高被引论文) (IF=19.924)

    5. Y. Wang#, L. Wang, Tingting Yang#(共同一作), H. W. Zhu*, et al. Wearable and highly sensitive graphene strain sensors for human motion monitoring. Advanced Functional Materials, 2014, 24 (29): 4666. (ESI高被引论文) (IF=19.924)

    6. Tingting Yang, Z. H. Li*, H. W. Zhu*, et al. A wearable and highly sensitive graphene strain sensor for precise home-based pulse wave monitoring. ACS Sensors, 2017, 2: 967.  (ESI高被引论文) (IF=9.618)

    7. Tingting Yang, Z. H. Li*, H. W. Zhu*, et al. Integration of graphene sensor with electrochromic device on modulus-gradient polymer for instantaneous strain visualization. 2D Materials, 2017, 4: 035020. (IF=6.861)

    8. Y. Wang#, Tingting Yang#(共同一作), H. W. Zhu*, et al. Ultra-sensitive graphene strain sensor for sound signal acquisition and recognition. Nano Research, 2015, 8 (5): 1627.  (IF=10.269)

    9. Tingting Yang, Z. H. Li*, H. W. Zhu*, et al. Interconnected graphene/polymer micro-tube piping composites for liquid sensing. Nano Research, 2014, 7 (6): 869. (IF=10.269)

    10. Tingting Yang, Z. H. Li*, H. W. Zhu*, et al. Torsion sensors of high sensitivity and wide dynamic range based on a graphene woven structure. Nanoscale, 2014, 6 (21): 13053. (IF=8.307)



科研项目

    1.四川省自然科学基金青年项目“柔性连续纳米流道的构建及高效湿基发电机制研究”

    主持人:杨婷婷 项目时间:2023年-2024年 总经费:10万

    2.中央高校基本业务费-科技创新项目“石墨烯快响应湿敏机理及湿度传感器基础研究”

    主持人:杨婷婷   项目时间:2021-2022  总经费:10

    3.国家自然科学基金青年项目石墨烯薄膜应变传感机理及其面向复杂曲面变形探测的应用研究

    主持人:杨婷婷   项目时间:2019-2021  总经费:24

    4.2022年电科院复杂条件下自供能电流传感器关键技术研究委托技术开发合同  

    主研:杨婷婷(负责经费100万)   项目时间:2022-2024  总经费:842.5

    5.原子级精度制造与微纳电子器件基础研究

    主研:杨婷婷  项目时间:2023年-2024年 总经费:240万

    6.国家重点研发计划子课题“超精密低损伤复杂曲面创成及机理研究”

        研:杨婷婷  项目时间:2020-2025  总经费:282

    7.中铁工程装备集团技术服务有限公司横向项目“全断面隧道掘进机刀盘刀具磨损与异常损坏智能诊断系统研发”

       研:杨婷婷  项目时间:2020-2022  总经费:156



专利


    1 杨婷婷,张勇,卢旭磊,何其昌,一种基于纳流体二极管的水伏器件及其制备方法,发明专利,专利号 ZL 2021 1 1054145.6

    杨婷婷,何昌留,房嘉豪,蒲晓波,钱林茂,陈良武,高利斌,宽频带、抗冲击张拉振动加速度传感器及使用方法,发明专利,专利号ZL2022 1 1321669.1

    杨婷婷,刘利芳,孙翔宇,邢占强,计炜梁,陈余,一种压电微机械超声换能器及其制备方法,发明专利,专利号ZL2019 1 0167348.2

    杨婷婷,徐炜,代刚,李小石,杜亦佳. 一种超快响应的柔性应变传感器及其制备方法,发明专利,专利号ZL2018 1 1050618.3

    杨婷婷,徐炜,代刚,李小石,杜亦佳. 一种图案化石墨烯柔性应变传感器的制备方法发明专利, 专利号ZL2018 1 1050042.0

    朱宏伟,杨婷婷,何艺佳,郑泉水. 一种流量传感器装置及其制造方法,发明专利, 专利号 ZL2015 1 0260756.4

    朱宏伟,杨婷婷,李雪松,郑泉水. 一种压阻式真空计及其制造方法发明专利,专利号ZL2015 1 0259875.8

    朱宏伟,杨婷婷,何艺佳,郑泉水. 一种流量传感器及其制造方法,发明专利,专利号ZL2015 1 0259908.9




著作成果

    1. 朱宏伟,杨婷婷,姜欣等著,石墨烯传感器及其在物联网中的应用,化学工业出版社,2021

    2. Yang Tingting , Xuanliang Zhao, Yijia He, Hongwei Zhu "Graphene-based sensors." Graphene. Academic Press, Year 2018


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