封面论文  

第一或通讯作者论文

[44]    Shenglong Wang¹, Yelan Yao¹, Weili Deng*, Xiang Chu, Tao Yang, Guo Tian, Yong Ao, Yue Sun, Boling Lan, Xiarong Ren, Xuelan Li, Tianpei Xu, Longchao Huang, Yang Liu, Jun Lu*, and Weiqing Yang*. Mass-produced skin-inspired piezoresistive sensing array with interlocking interface for object recognition. ACS Nano, 2024, 18(17), 11183-11192. （IF：17.1）

[43]    Guo Tian, Weili Deng*, Tao Yang, Jieling Zhang, Tianpei Xu, Da Xiong, Boling Lan, Shenglong Wang, Yue Sun, Yong Ao, Longchao Huang, Yang Liu, Xuelan Li, Long Jin, and Weiqing Yang*. Hierarchical piezoelectric composites for noninvasive continuous cardiovascular monitoring. Advanced Materials, 2024, 2313612. （IF：29.4）

[42]    Weili Deng, Longchao Huang, Hongrui Zhang, Guo Tian, Shenglong Wang, Tao Yang, Da Xiong, Long Jin and Weiqing Yang*. Discrete ZnO p-n homojunction piezoelectric arrays for self-powered human motion monitoring. Nano Energy, 2024, 124, 109462.（IF：17.6）

[41]    Xiarong Ren, Shenglong Wang, Da Xiong, Guo Tian, Boling Lan, Weiqing Yang and Weili Deng*. Heterogeneously assembled bionic piezoresistive sensor for spinal behavior monitoring, Chemical Engineering Journal, 2024, 485, 149817.（IF：15.1）

[40] Tao Yang, Weili Deng*, Guo Tian, Lin Deng, Wanghong Zeng, You Wu, Shenglong Wang, Jieling Zhang, Boling Lan, Yue Sun, Long Jin and Weiqing Yang*. Modulating piezoelectricity and mechanical strength via three-dimensional gradient structure for piezoelectric composites. Materials Horizons, 2023, 10, 5045-5052. （IF：13.3）

[39] Wanghong Zeng, Weili Deng*, Tao Yang, Shenglong Wang, Yue Sun, Jieling Zhang, Xiarong Ren, Long Jin, Lihua Tang and Weiqing Yang*. Gradient CNT/PVDF piezoelectric composite with enhanced force-electric coupling for soccer training. Nano Research, 2023, 16(8), 11312-11319.（IF：9.9）

[38] Boling Lan, Tao Yang, Guo Tian, Yong Ao, Long Jin, Da Xiong, Shenglong Wang, Hongrui Zhang, Lin Deng, Yue Sun, Jieling Zhang, Weili Deng* and Weiqing Yang*. Multichannel gradient piezoelectric transducer assisted with deep learning for broadband acoustic sensing. ACS Applied Materials & Interfaces, 2023, 15(9), 12146-12153. （IF：9.5）

[37] Guo Tian¹, Liang Tang¹, Jieling Zhang, Shenglong Wang, Yue Sun, Yong Ao, Tao Yang, Da Xiong, Hongrui Zhang, Boling Lan, Lin Deng, Weili Deng* and Weiqing Yang*. Ultrathin epidermal P(VDF-TrFE) piezoelectric film for wearable electronics. ACS Applied Electronic Materials, 2023, 5 (3), 1730-1737. （IF：4.7）

[36] Shenglong Wang, Weili Deng*, Tao Yang, Yong Ao, Hongrui Zhang, Guo Tian, Lin Deng, Haichao Huang, Junfeng Huang, Boling Lan and Weiqing Yang*. Bioinspired MXene-based piezoresistive sensor with two-stage enhancement for motion capture. Advanced Functional Materials, 2023, 33,2214503.（IF：19）

[35] Guo Tian, Weili Deng*, Tao Yang, Da Xiong, Hongrui Zhang, Boling Lan, Lin Deng, Binbin Zhang, Long Jin, Haichao Huang, Yue Sun, Shenglong Wang and Weiqing Yang*. Insight into interfacial polarization for enhancing piezoelectricity in ferroelectric nanocomposites. Small, 2023, 19, 2207947.（IF：13.3）

[34] Lin Deng, Weili Deng*,  Tao Yang, Guo Tian, Long Jin, Hongrui Zhang, Boling Lan, Shenglong Wang, Yong Ao, Bo Wu* and Weiqing Yang. Flexible lead-free piezoelectric Ba0.94Sr0.06Sn0.09Ti0.91O3/PDMS composite for self-powered human motion monitoring. Journal of Functional Biomaterials, 2023, 14(1), 37.（IF：4.8）

[33] Yue Sun, Sophia Shen, Weili Deng*, Guo Tian, Da Xiong, Hongrui Zhang, Tao Yang, Shenglong Wang, Jun Chen * and Weiqing Yang*. Suppressing piezoelectric screening effect at atomic scale for enhanced piezoelectricity. Nano Energy, 2023, 105, 108024.（IF：17.6）

[32] Shenglong Wang, Weili Deng*, Tao Yang, Guo Tian, Da Xiong, Xiao Xiao, Hongrui Zhang, Yue Sun, Yong Ao, Junfeng Huang, Jun Chen* and Weiqing Yang*. Body-area sensor network featuring micropyramids for sports healthcare. Nano Research, 2023,16(1), 1330-1337.（IF：9.9）

[31] Hongrui Zhang, Guo Tian, Da Xiong, Tao Yang, Shenglong Wang, Yue Sun, Long Jin, Boling Lan, Lin Deng, Weiqing Yang and Weili Deng*. Carrier concentration-dependent interface engineering for high-performance zinc oxide piezoelectric device. Journal of Colloid and Interface Science, 2023,629, 534-540.（IF：9.9）

[30] Jiaqing Liu, Guo Tian, Weiqing Yang and Weili Deng*. Recent progress in flexible piezoelectric devices toward human-machine interactions. Soft Science, 2022, 2(4), 22. 

[29] Shenglong Wang ¹, Boling Lan¹, Yuyu Gao, Yanting Xie, Hanyu He, Da Xiong, Guo Tian, Tao Yang, Junfeng Huang, Yong Ao, Yue Sun, Weiqing Yang and Weili Deng*. Versatile MXene integrated assembly for piezoresistive micro-force sensing. VIEW, 2022, 3(5), 20220031. （IF：8.6）

[28] Boling Lan¹, Xiao Xiao¹, Aiden Di Carlo, Weili Deng*, Tao Yang, Long Jin, Guo Tian, Yong Ao, Weiqing Yang* and Jun Chen*. Topological nanofibers enhanced piezoelectric membranes for soft bioelectronics. Advanced Functional Materials, 2022, 32(49), 2207393.（IF：19）

[27] Hongrui Zhang, Guo Tian, Da Xiong, Tao Yang, Shen Zhong, Long Jin, Boling Lan, Lin Deng, Shenglong Wang, Yue Sun, Weiqing Yang and Weili Deng*. Understanding the enhancement mechanism of ZnO nanorod-based piezoelectric devices through surface engineering. ACS Applied Materials & Interfaces, 2022，14(25),29061-29069.（IF：9.5）

[26]  Weili Deng¹, Yihao Zhou¹, Alberto Libanori, Guorui Chen, Weiqing Yang* and Jun Chen*. Piezoelectric nanogenerators for personalized healthcare. Chemical Society Reviews, 2022, 51, 3380-3435.（IF：46.2）

[25] Guo Tian¹, Weili Deng¹, Da Xiong¹, Tao Yang, Binbin Zhang, Xiarong Ren, Boling Lan, Shen Zhong, Long Jin, Hongrui Zhang, Lin Deng and Weiqing Yang*. Dielectric micro-capacitance for enhancing piezoelectricity via aligning MXene sheets in composites. Cell Reports Physical Science, 2022, 3,100814.（IF：8.9）

[24] Da Xiong, Weili Deng*, Guo Tian, Binbin Zhang, Shen Zhong, Yanting Xie, Tao Yang, Haibo Zhao and Weiqing Yang*. Controllable in-situ-oxidization of 3D-networked Ti₃C₂T_x-TiO₂ photodetectors for large-area flexible optical imaging. Nano Energy, 2022, 93,106889.（IF：17.6）

[23] Shen Zhong, Da Xiong, Binbin Zhang, Xiao Yang, Tao Yang, Guo Tian, Hongrui Zhang, Weiqing Yang and Weili Deng*. Structurally unraveling the photocarrier behavior of Cu₂O/ZnO heterojunction photodetector. ACS Photonics, 2022, 9, 1, 268-274.（IF：7）

[22]    Weili Deng¹, Alberto Libanori¹, Xiao Xiao, Jun Fang, Xun Zhao, Yihao Zhou, Guorui Chen, Song Li and Jun Chen*. Computational investigation of ultrasound induced electricity generation via a triboelectric nanogenerator. Nano Energy, 2022, 91,106656.（IF：17.6）

[21]    Ming Zhu¹, Tao Yang¹, Liting Wang, Mengyuan Xiong, Wenjun He, Yaowei Chen, Weili Deng* and Xiaoyan Li*. Superstretchable electrode based on hierarchical assembly of triblock copolymer fiber membrane. Chemical Engineering Journal, 2022, 430, 132911.（IF：15.1）

[20] Tao Yang, Weili Deng*, Xiang Chu, Xiao Wang, Yeting Hu, Xi Fan, Jia Song, Yuyu Gao, Binbin Zhang, Guo Tian, Da Xiong, Shen Zhong, Lihua Tang, Yonghe Hu* and Weiqing Yang*. Hierarchically microstructure-bioinspired flexible piezoresistive bioelectronics.  ACS Nano, 2021, 15(7),11555-11563. （IF：17.1）

[19]   Weili Deng¹, Yihao Zhou¹, Xun Zhao¹, Songlin Zhang, Yongjiu Zou, Jing Xu, Min-Hsin Yeh,* Hengyu Guo* and Jun Chen*. Ternary electrification layered architecture for high-performance triboelectric nanogenerators. ACS Nano, 2020, 14(7), 9050-9058.（IF：17.1）

[18]   Yihao Zhou¹, Weili Deng¹, Jing Xu and Jun Chen*. Engineering materials on the nanoscale for triboelectric nanogenerators. Cell Reports Physical Science, 2020，1(8), 100142. （IF：8.9）    

[17]   Guo Tian, Da Xiong, Yuhan Su, Tao Yang, Yuyu Gao, Cheng Yan,Wen Deng, Long Jin, Haitao Zhang, Weili Deng* and Weiqing Yang*. Understanding the potential screening effect through the discretely structured ZnO nanorods piezo array. Nano Letters, 2020, 20(6), 4270-4277. （IF：10.8）                     

[11]   Tao Yang, Hong Pan, Guo Tian, Da Xiong, Yuyu Gao, Cheng Yan, Xiang Chu, Lei Zhang, Weili Deng* and Weiqing Yang*. Hierarchically structured PVDF/ZnO core-shell nanofibers for self-powered physiological monitoring electronics. Nano Energy, 2020, 72, 104706. （IF：17.6）                                 

[10]   Yuyu Gao¹, Cheng Yan¹, Haichao Huang, Tao Yang, Guo Tian, Da Xiong, Ningjun Chen, Xiang Chu, Shen Zhong, Weili Deng*, Yong Fang* and Weiqing Yang*. Microchannel-confined MXene based flexible piezoresistive multifunctional micro-force sensor. Advanced Functional Materials, 2020, 30,1909603. （IF：19）

[9]   Cheng Yan¹, Yuyu Gao¹, Shenlong Zhao, Songlin Zhang, Yihao Zhou, Weili Deng*, Ziwei Li, Gang Jiang, Long Jin, Guo Tian, Tao Yang, Xiang Chu, Da Xiong, Zixing Wang, Yongzhong Li, Weiqing Yang* and Jun Chen*. A linear-to-rotary hybrid nanogenerator for high-performance wearable biomechanical energy harvesting. Nano Energy, 2020, 67,10423. （IF：17.6）                         

[8]   Weili Deng¹, Tao Yang¹, Long Jin, Cheng Yan, Haichao Huang, Xiang Chu, Zixing Wang, Da Xiong, Guo Tian, Yuyu Gao, Haitao Zhang and Weiqing Yang*. Cowpea-structured PVDF/ZnO nanofibers based flexible self-powered piezoelectric bending motion sensor towards remote control of gestures. Nano Energy, 2019, 55, 516.（IF：17.6）

[7]   Guo Tian, Weili Deng*, Yuyu Gao, Da Xiong, Cheng Yan, Xuebing He, Tao Yang, Long Jin, Xiang Chu, Haitao Zhang, Wei Yan and Weiqing Yang*. Rich lamellar crystal baklava-structured PZT/PVDF piezoelectric sensor toward individual table tennis training. Nano Energy, 2019, 59, 574. （IF：17.6）                           

[6]   Da Xiong, Weili Deng*, Guo Tian, Yuyu Gao, Xiang Chu, Cheng Yan, Long Jin, Yuhan Su, Wei Yan and Weiqing Yang*. A piezo-phototronic enhanced serrate-structured ZnO-based heterojunction photodetector for optical communication. Nanoscale, 2019, 11, 3021.（IF：6.7）                               

[5]  Cheng Yan, Weili Deng*, Long Jin, Tao Yang, Zixing Wang, Xiang Chu, Hai Su, Jun Chen* and Weiqing Yang*. Epidermis inspired ultrathin 3D cellular sensors array for self-powered biomedical monitoring. ACS Applied Materials & Interfaces, 2018，10(48),41070-41075. （IF：9.5）                 

[4]  Weili Deng, Long Jin, Yueqi Chen, Wenjun Chu, Binbin Zhang, Huan Sun, Da Xiong, Zekai Lv, Minhao Zhu and Weiqing Yang*. An enhanced low-frequency vibration ZnO nanorods-based tuning fork piezoelectric nanogenerator. Nanoscale, 2018, 10(2), 843.

[3]  Weili Deng, Binbin Zhang, Long Jin, Yueqi Chen, Wenjun Chu, Haitao Zhang, Minhao Zhu and Weiqing Yang*. Enhanced performance of ZnO microballoon arrays for triboelectric nanogenerator. Nanotechnology, 2017, 28(13), 135401. 

[2]  Weili Deng, Long Jin, Binbin Zhang, Yueqi Chen, Lin Mao, Haitao Zhang and Weiqing Yang*. A flexible field-limited ordered ZnO nanorods-based self-powered tactile sensor array for electronic skin. Nanoscale, 2016, 8(36), 16302.

[1]  Weili Deng, Xinjie Huang, Wenjun Chu, Yueqi Chen, Lin Mao, Qi Tang and Weiqing Yang*. Microstructure-based interfacial tuning mechanism of capacitive pressure sensors for electronic skin. Journal of Sensors, 2016, 8,12504.

   专利

       [10]   邓维礼;杨维清;杨涛;邓林;钟珅;熊达;靳龙. 一种基于仿生多级结构复合柔性压阻传感器及其制备方法 

       [9]     邓维礼;杨维清;杨涛;闫成;靳龙;熊达;赵凡漪. 一种柔性压电纳米纤维膜及其制备方法和应用

       [8]     邓维礼;谢超鸣;鲁雄;王科锋. 高通量电刺激诱导细胞分化及药物控释的实验装置及方法

       [7]      邓维礼;杨维清;张海涛;靳龙;张彬彬;毛林;苏海. 一种基于氧化锌微球阵列修饰的摩擦发电机

       [6]      邓维礼;李炎翰;娄亮;徐铭坤;杨维清. 一种汽车尾气净化装置

       [5]      邓维礼;吕泽楷;杨维清;靳龙; 胡成见; 张伟; 蒲犇; 唐安表. 自供能头盔 

       [4]      邓维礼;杨维清;何其沛; 魏居垚; 刘禹清; 胡成见; 陈楚珺. 基于振动效应的能量采集装置

       [3]      邓维礼;胡成见;杨维清; 何其沛; 魏居垚; 刘禹清. 一种复合型能量采集器

       [2]     邓维礼;谢超鸣;鲁雄; 王科峰. 一种用于细胞培养的高通量电刺激仪

       [1]     邓维礼;杨维清;翟福琪; 杨涛; 赵凡漪; 朱婷; 蔡万源; 李兆峰; 熊达; 田果. 一种柔性力敏传感器及其制备方法、阵列器件和应用 

研究方向

纳米功能材料（压电、压阻、光电）

柔性可穿戴传感

自供能传感一体化集成

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