羅堅義
五邑大學教授�、博士生導師
享受國務院政府特殊津貼專家���、廣東省杰出青年基金獲得者
應用物理與材料學院院長��、柔性傳感材料與器件研究開發中心主任
五邑大學教授委員會副主任�����、廣東省真空學會常務理事��、廣東省材料研究學會常務理事、廣東省物理學會理事
南粵優秀教師�、江門市一級高層次人才���、江門市“十佳教師”
江門市首屆 “僑鄉青年榜樣”���、江門市優秀共產黨員��、江門市優秀科技工作者
教育經歷:
2004/09-2009/12 中山大學 光學工程 博士學位
2000/09-2004/07 中山大學 物理學專業 學士學位
研究方向:
(1)柔性傳感材料與器件應用(柔性觸覺傳感、溫度傳感��、氣壓傳感和彎曲傳感等)�����;(2)納米功能材料合成�����;(3)智能調光變色材料與器件。
主要研究成果:
帶領科研團隊在觸覺傳感器��、智能變色窗戶��、氣體傳感器等技術領域����,以第1作者或通信作者Nature Communications���、Nano Energy�、npj Flexible Electronics���、Advanced Materials Technologies���、Journal of physical Chemistry C、Sensors and Actuators B 等重要國際期刊發表論文40余篇,獲授權發明專利31項,授權美國專利4項�;并獲得第十屆廣東專利獎優秀獎��,第七屆廣東專利獎優秀獎,2023年度發明創業獎創新獎二等獎,2023年度“無限創新”江門科學技術獎一等獎(第一完成人)�,江門市2021年首屆高價值專利培育布局大賽金獎,江門市科學技術獎一等獎1項(第一完成人)、二等獎1項(第五完成人)等��。在承擔項目方面�,主持或已完成國家自然科學基金1項�����、廣東省自然科學基金4項(其中杰出青年基金1項����、面上項目2項)���、廣東省普通高校重點領域專項項目1項��、廣東省重點學科提升工程項目1項����。所研發的柔性傳感技術獲得企業的認可,以專利普通許可的方式獲得企業2000萬的研發經費投入��。
主要承擔項目情況:
(1) “基于碳纖維絲的柔性觸覺傳感器件及其應用研究”�����,廣東省自然科學基金面上項目,結題�����,項目負責人。
(2) “碳基柔性觸覺傳感器件的構建及其應用”�����,廣東省普通高校重點領域專項(智能制造)�����, 結題����,項目負責人�。
(3) “量程可調柔性氣壓傳感器的結構設計、制備及應用研究”,廣東高校重點建設學科科研能力提升項目���, 在研���,項目負責人����。
(4) 江門市科技計劃-市科技創新平臺建設資助(廣東省柔性傳感器及應用工程技術研究中心)����,在研����,項目負責人。
(5) “半導體物理與器件”�,2021年度省級一流本科課程��,在研,項目負責人��。
(6) “半導體光電技術產業學院”�,省級教學質量與教學改革工程建設項目(現代產業學院),在研�,在研�����,項目負責人�����。
(7) 柔性傳感技術校企聯合實驗室,重大橫向項目�,項目經費2000萬元�,在研,項目負責人�����。
(8) “舌肌壓力測定儀”���,橫向項目�����,在研,項目負責人��。
(9) “金屬氧化物納米氣敏材料的可控生長及其表面改性研究”�����,廣東省杰出青年基金����,項目經費100萬元,已結題�����,項目負責人。
(10) “三維氧化鎢納米線網絡結構體的可控生長及其氣敏傳感特性”�,國家自然科學基金�����,已結題�,項目負責人���。
(11) “利用納米網絡結構體改進金屬氧化物氣敏性能及其改性機理研究”,廣東省自然科學基金自由申請項目����,已結題�����,項目負責人���。
代表性論著成果:
[1] Xiangjian Liao , Xingyu Liu , Yilu Wu , Longxin Qian , Yonglin Chen , Yifei Wang , Zixuan Wu , Aiping Huang * , Xianzhe Liu *, Jianyi Luo*(通訊作者), Ni1-xZnxFe2O4 heterojunction composites derived from normal/inverse spinel structure for ppb-level acetone detection. Sensors and Actuators: B. Chemical, 2025, 436,137733.(化學一區Top�,SCI影響因子8.0)
[2] Xiangjian Liao , Xingyu Liu , Yilu Wu , Shufen Li , Guojiao Ren, Yuxiang Ou, Shiquan Chen , Zixuan Wu , Aiping Huang * , Xianzhe Liu *, Jianyi Luo*(通訊作者), Heterostructured NixFe3-xO4 composites for sub-ppm acetone detection. Sensors and Actuators B: Chemical, 2025, 433, 137425.(化學一區Top���,SCI影響因子8.0)
[3] Yongsheng Huang , Haolong Wu , Zixuan Liang , Yunfeng Zhan*, Bowen Liu , Qingqing Hu , Jinchong Tao , Guanting Chen , Shuangshuang Yuan , Zixuan Wu , Xiufeng Tang*, Jianyi Luo*(通訊作者), Rich vacancy-hosted-nitrogen sites on ZIF-derived porous carbon for enhanced humidity sensing. Chemical Engineering Journal, 2025, 505, 159360.(工程技術一區Top��,SCI影響因子13.4)
[4] Junsheng Luo, Tingliang Zhou, Kaibang Zhang, Jinxiu Wen*, Peisheng Lan, Yanfei Zhu, Weizhao Zhang, Zhiming Chen, Dongye Yang*, Jianyi Luo*(通訊作者), Innovative Tongue Pressure Monitoring for Comprehensive Oral Health Assessment and Rehabilitation. IEEE Sensors Journal, 2025, DOI: 10.1109/JSEN.2024.3523104. (綜合性期刊二區�,SCI影響因子4.3)
[5] Fengming Hu, Qian Zhou, Ruolin Liu, Yanfei Zhu, Yuanzhe Liang, Dan Fang, Bing Ji, Zhiming Chen,* Jianyi Luo*(通訊作者) and Bingpu Zhou*, Top-down architecture of magnetized micro-cilia and conductive micro-domes as fully bionic electronic skin for de-coupled multidimensional tactile perception. Materials Horizons, 2025, 12(2), 418-433. (材料科學二區����,SCI影響因子12.2)
[6] Jun Wang, Jing Lin,* Xinqing Chen, Ye Li, Kelin Pan, Kai Chen, Dechao Hu,* and Jianyi Luo*(通訊作者), Tailored Porous Conductive Elastomer Composites for Highly Sensitive Flexible Pressure Sensors over a Wide Range. ACS Applied Nano Materials, 2024, 7 (21), 24706-24713.(材料科學二區,SCI影響因子5.3)
[7] Ao Chen, Zhihao Liang, Zhiying Liao, Huiqi Zhang, Songju Li, Ruihua Wang, Yan Li, Mengxia Yu, Xianzhe Liu*, Honglong Ning, Aiping Huang* and Jianyi Luo*(通訊作者), Efficient gradient heating-up approach for rapid growth of high-quality amorphous ZrO2 dielectric films. Journal of Physics D: Applied Physics, 2024, 57, 355101. (物理與天體物理三區,SCI影響因子3.1)
[8] Chenchen Zhang, Zerui Li, Qiwei Zheng, Xinglong Zhou, Zicong Lin, Jiong Zhang, Xiufeng Tang*, Yunfeng Zhan*, Jianyi Luo*(通訊作者)���,High-performance laminated NiO film striking a balance between the color-changing capability and cycling stability and its real application in bistable display. Solar Energy Materials & Solar Cells, 2024, 267, 112729. (材料科學二區,SCI影響因子6.3)
[9] Yihan Hu, Linxue Xiong, Xiaojia Cai, Zicong Lin, Xinglong Zhou, Jiong Zhang, Xiufeng Tang,* Yunfeng Zhan,* Jianyi Luo*(通訊作者), Comprehensive role of the ITO conductivity playing in WO3 based electrochromic devices from electrochromic behavior to electrochromic performance.Solar Energy Materials & Solar Cells, 2024, 274 112960.(材料科學二區,SCI影響因子6.3)
[10] Jingsong He, Yizhou Li, Fanping Yang, Zhixiang Gan, Kelan Lu, Zhengyang Deng, Kaibang Zhang, Zhiming Chen, Xianzhe Liu*, Aiping Huang* and Jianyi Luo*(通訊作者), Waterproof, stretchable and wearable corrugated conductive carbon fiber strain sensors for underwater respiration monitoring and swimming instruction. Applied Materials Today, 2024, 38, 102165.(材料科學二區,SCI影響因子8.3).
[11] Zhaocheng Zhang, Huajing Mo, Ruicong Li, Xinglong Zhou, Zicong Lin, Jiong Zhang, Xiufeng Tang*, Yunfeng Zhan*and Jianyi Luo*(通訊作者), The Counterbalancing Role of Oxygen Vacancy between the Electrochromic Properties and the Trapping Effect Passivation for Amorphous Tungsten Oxide Films. Small Science, 2024, 4(3), 2300219.(新期刊,SCI影響因子12.7).
[12] Meng Jia, Jinxiu Wen,* Peisheng Lan, Bo Liu, Shichang Li, Tingliang Zhou, Zi Li, Jianyi Luo*(通訊作者) and Rihui Wu*, Ultrafine and Microinvasive Temperature Probe for Real-Time Monitoring Core Body Temperature. Advanced Sensor Research, 2024, 2300187.(新期刊)
[13] Jun Wang, Jing Lin*, Kelin Pan, Kaibang Zhang, Hebai Zhang, Jin Dong, Dechao Hu*, Zhixin Jia and Jianyi Luo*(通訊作者), A sparse-dense hierarchical structured conductive elastomer composites for highly sensitive and stretchable strain sensor. Chemical Engineering Journal, 2023, 477, 146759.(工程技術類一區Top����,SCI影響因子15.1).
[14] Xiaoyan Li, Xianzhe Liu*, Weihao Zeng, Dongyi Ding, Bo Liu, Yizhou Li, Zihao Zhao, Siyuan Zhan, Weigang Zhu, Zhiming Chen, Jingcheng Huang and Jianyi Luo*(通訊作者), Carbon Fiber-Based Smart Plantar Pressure Mapping Insole System for Remote Gait Analysis and Motion Identification. Advanced Materials Technologies, 2023, 8(16), 202300095.(綜合性期刊2區��,SCI影響因子8.856).
[15] Yizhou Li, Zhiming Chen*, Youbin Chen, Hao Yang, Junyong Lu, Zhennan Li, Yongyao Chen, Dongyi Ding, Cuiying Zeng, Bingpu Zhou, Hongpeng Liang, Xingpeng Huang, Jiajia Hu, Jingcheng Huang, Jinxiu Wen, and Jianyi Luo*(通訊作者), A smart bionic finger for subsurface tactile tomography. Cell Reports Physical Science, 2023, 4(2), 101257.(綜合性期刊2區,SCI影響因子7.832).
[16] Yang Yu, Yanan Yu, Zhaokun Chen, Chunran Li, Nong Tian, Haochen Yan, Jianyi Luo*(通訊作者), and Tinghui Xiao, Ultracompact Vernier-effect-improved sensor by a single microfiber-knot resonator. Optics Express, 2023, 31(4), 6917-6924 (物理與天體物理2區,SCI影響因子3.833).
[17] Zhaocheng Zhang, Haoyuan Chen, Zicong Lin, Xiongcong Guan, Jiong Zhang, Xiufeng Tang*, Yunfeng Zhan and Jianyi Luo*(通訊作者), Pivotal Role of the Granularity Uniformity of the WO3 Film Electrode upon the Cyclic Stability during Cation Insertion/Extraction. Nanomaterials, 2023, 13, 973.(材料科學三區�,SCI影響因子4.324).
[18] Jing Liu, Fei Liao, Zhiming Chen,* Renhao Zhou, Xiaoming Zhong, Bo Liu, Zaijun Wang, Mingyi He, Hongxu Lin, Zibin Zhang, Shengsheng Lu, Leyi Zeng, Bingpu Zhou, Guoning Chen, Jingchen Huang, Aiping Huang and Jianyi Luo*(通訊作者), Digitizing Human Motion via Bending Sensors toward Humanoid Robot. Advanced Intelligent Systems, 2023, 2200337.(計算機科學三區�����,SCI影響因子7.298).
[19] Qian Zhou, Bing Ji, Fengming Hu, Ziyi Dai, Sen Ding, Hao Yang, Junwen Zhong, Yancong Qiao, Jianhua Zhou, Jianyi Luo, and Bingpu Zhou*, Magnetized Microcilia Array-Based Self-Powered Electronic Skin for Micro-Scaled 3D Morphology Recognition and High-capacity Communication. Advanced Functional Materials, 2022, 2208120.(工程技術類一區Top,SCI影響因子19.924).
[20] Sen Ding, Mingrui Wang, Hao Yang, Fengming Hu, Ziyi Dai, Ming Lei, Qian Zhou, Dazhe Zhao, Yibo Gao, Junwen Zhong, Jianyi Luo*(通訊作者), Bingpu Zhou*, Sweeping-responsive interface using the intrinsic polarity of magnetized micropillars for self-powered and high-capacity human-machine interaction. Nano Energy, 2022, 102, 107671.(工程技術類一區Top�����,SCI影響因子19.069).
[21] Ziyi Dai, Kai Feng, Mingrui Wang, Ming Lei, Sen Ding, Jianyi Luo, Qingsong Xu, Bingpu Zhou*, Optimization of bidirectional bending sensor as flexible ternary terminal for high-capacity human-machine interaction. Nano Energy, 2022, 97, 107173. (工程技術類一區Top,SCI影響因子19.069).
[22] Fengming Hu, Zhiming Chen,* Bin Xu, Qianxuan Wang, Xingpeng Huang, Hao Yang, Hongpeng Liang, Guoning Chen, Jintao Zheng, Xiaoyan Hu, Baowen Liang, Jingcheng Huang, Tanghong Liu, and Jianyi Luo*(通訊作者), Waterproof, Anti-Impacted, and Ultrathin Carbon-Based Air Pressure Sensors Toward Aerodynamic Tests on High-Speed Trains. Advanced Engineering Materials, 2022, 2101781.(期刊封面論文��,工程技術類三區,SCI影響因子4.122).
[23] Wenhang Wu , Zheng Liang, Meng Jia , Yuwei Li , Xiongcong Guan , Yunfeng Zhan , Jinxiu Wen and Jianyi Luo*(通訊作者), High Power Factor of Ag2Se/Ag/Nylon Composite Films for Wearable Thermoelectric Devices. Nanomaterials, 2022, 12, 4238.(材料科學三區�����,SCI影響因子4.324).
[24] Zhundong Li, Fengming Hu, Zhiming Chen*, Jingcheng Huang, Guoning Chen, Runbo Chen, Minmin Wei, Kete Lao, Jiajia Hu, Jintao Zheng, Lvfei Wang, Yuan Yao, Xiaoyan Hu, Baowen Liang, Min Yang, Xihong Lu, Jinxiu Wen & Jianyi Luo*(通訊作者), Fiber-junction design for directional bending sensors. npj Flexible Electronics, 2021, 5, 4. (nature子刊��,材料科學一區Top ,SCI影響因子12.019).
[25] Qian Zhou, Bing Ji, Fengming Hu, Jianyi Luo and Bingpu Zhou, Magnetized Micropillar�Enabled Wearable Sensors for Touchless and Intelligent Information Communication. Nano-Micro Letters, 2021, 13:197.(工程技術類一區Top��,SCI影響因子23.655).
[26] Jiajia Hu, Zhiming Chen, Kete Lao, Hongpeng Liang, Xingpeng Huang, Zhundong Li, Jingcheng Huang, Xiaoyan Hu, Baowen Liang, Dongdong Ye, Jinxiu Wen, and Jianyi Luo*(通訊作者), Cascade Amplification Effect for Mechanical Stimuli Sensors by Designing the Current Path Through Carbon Fiber Beams. IEEE SENSORS JOURNAL, 2021, 21(16), 17410-17418.(工程技術類二區�,SCI影響因子4.325).
[27] Minmin Wei, Zhiming Chen, Guoning Chen, Xingpeng Huang, Ying Jin, Kete Lao, Zhundong Li, Songhui Li, Fudong Zhong , Hongpeng Liang, Jingcheng Huang, Baowen Liang, Xiaoyan Hu, Huilin Liu , Huizhu Liang , Min Yang**, Jinxiu Wen, Yue Feng, Jianyi Luo*(通訊作者), A Portable Three-Channel Data Collector for Chinese Medicine Pulses. Sensors and Actuators: A. Physical, 2021, 323, 112669.(工程技術類三區,SCI影響因子4.291).
[28] Chengjian Qi, Guoxin Chen, Tengcheng Huang, Zhaocheng Zhang, Zinan Huang, Yunfeng Zhan, Xiufeng Tang,* and Jianyi Luo*(通訊作者), Greatly Simplified All-Solid-State Camera Shielding Device of Mobile Phone Based on the Shoulder-by-Shoulder Electrochromic Technology. ACS Applied Electronic Materials, 2021, 3, 2631-2637.(材料科學三區���,SCI影響因子4.494).
[29] Ying Jin , Guoning Chen, Kete Lao, Songhui Li, Yong Lu, Yufeng Gan, Zhundong Li, Jiajia Hu, Jingcheng Huang, Jinxiu Wen, Honggui Deng, Min Yang, Zhiming Chen, Xiaoyan Hu, Baowen Liang and Jianyi Luo*(通訊作者), Identifying human body states by using a ?exible integrated sensor. npj Flexible Electronics, 2020, 4, 28.(nature子刊����,材料科學一區Top��, SCI影響因子12.019).
[30] Xiufeng Tang*, Guoxin Chen, Zhixin Li, Hua Li, Zehui Zhang, Qinghao Zhang, Zhijun Ou,Yongxian Li, Chengjian Qi and Jianyi Luo*(通訊作者), Structure evolution of electrochromic devices from 'face-to-face' to 'shoulder-by-shoulder'. Journal of Materials Chemistry C, 2020, 8,11042-11051.(背封面論文,工程技術類一區Top����,SCI影響因子8.067).
[31] xiufeng Tang, Guoxin Chen, Huizhen Liao, Zhixin Li, Jiong Zhang, Jianyi Luo*(通訊作者), Unveiling mechanical degradation for a monolithic electrochromic device: Glass/ITO/WO3/LiClO4(PEO)/TiO2/ITO/glass. Electrochimica Acta, 2020, 329, 135182.(工程技術類二區Top�,SCI影響因子7.336).
[32] Xiufeng Tang, Guoxin Chen, Zhaopeng Mo, Dingbang Ma, Siyuan Wang, Jinxiu Wen, Li Gong, Lite Zhao, Jingcheng Huang, Tengcheng Huang, and Jianyi Luo*(通訊作者), Controllable two-dimensional movement and redistribution of Li ions in metal oxides. Nature Communications, 2019, 10, 2888.(國際綜合類頂級期刊,綜合性期刊一區Top����,SCI影響因子17.694).
[33] Jingcheng Huang, Guoning Chen, Xiaoyan Hu, Songhui Li, Jingxiu Wen,* Baowen Liang, Ying Jin, Yong Lu, kete Lao, Changguan Fu, Runbo Chen, Honggui Deng, ZhunDong Li, Zihang Yang, Yingzhu Wu, Min Yang, Hui Huang, Xiufeng Tang, and Jianyi Luo*(通訊作者), Flexible integrated sensors: Transverse piezoresistance and longitudinal thermal resistance of one single carbon fiber beam. Advanced Materials Technologies, 2019, 4 (11), 190082.(工程技術類二區,SCI影響因子8.856).
[34] Xiufeng Tang*, Jingcheng Huang, Huizhen Liao, Guoxin Chen, Zhaopeng Mo, Dingbang Ma, Runze Zhan, Yudong Li, and Jianyi Luo*(通訊作者), Growth of W18O49/WOx/W dendritic nanostructures by one-step thermal evaporation and their high-performance photocatalytic activities in methyl orange degradation. CrystEngComm, 2019, 21, 5905.(物理類二區����,SCI影響因子3.756).
[35] Jianyi Luo*(通訊作者), Jing Cheng Huang, Feng Chen, You Xin Xu, Chang Ping Zhong, Qing Guang Zeng, Xiu Feng Tang, and Lin Shun Hu, A high sensing fluorescence probe to in situ study the microstructural changes of tungsten oxide nanowires induced by thermal effect. Applied Physics Letters, 2017, 110, 253106.(物理類二區Top��,SCI影響因子3.971).
[36] Jianyi Luo*(通訊作者), Yu Dong Li, Xi Wei Mo, You Xin Xu, and Qing Guang Zeng, Metal-seed planting fabrication of W-W18O49 core shell nanoflowers for gas sensors. RSC Advances, 2017, 7, 29844-29853.(二區���,SCI影響因子4.036).
[37] Jianyi Luo*, Feng Chen, Zhi Cao, Wen Hao Zheng, Huan Cong Liu, Yu Dong Li, Guo Tao Yang, and Qing Guang Zeng, Complex three-dimensional tungsten oxide nanowire networks: Controllable synthesis and growth mechanism. CrystEngComm, 2015, 17, 889-894.(一區, SCI影響因子3.756).
[38] Jianyi Luo*(通訊作者), Yu Rong Lin, Bao Wen Liang, Yu Dong Li, Xi Wei Mo, and Qing Guang Zeng, Controllable dye adsorption behavior on amorphous tungsten oxide nanosheet surfaces. RSC Advances, 2015, 5, 100898-100904.(二區,SCI影響因子4.036).
[39] Jianyi Luo*(通訊作者), Wei Li, Feng Chen, Xue Xian Chen, Wei Da Li, Hao Yuan Wu, Yao Ji Gao, and Qing Guang Zeng, Self-heating effect and its occurrence mechanism in the gasochromic coloration of Pt coated WO3 nanowire films. Sensors and Actuators B, 2014, 197, 81-86.(工程技術類一區,SCI影響因子9.221).
[40] Jian Yi Luo*, Xue Xian Chen, Wei Da Li, Wei Yuan Deng, Wei Li, HaoYuan Wu, Lian Feng Zhu, and Qing Guang Zeng, Variable-temperature Raman spectroscopic study of the hydrogen sensing mechanism in Pt-WO3 nanowire film. Applied Physics Letters, 2013, 102, 113104.(物理類二區�,SCI影響因子3.971).
[41] Jian Yi Luo*(通訊作者), Zhi Cao, Feng Chen, Li Li, Yu Rong Lin, Bao Wen Liang, Qing Guang Zeng, Mei Zhang, Xin He, and Chen Li, Strong aggregation adsorption of methylene blue from water using amorphous WO3 nanosheets. Applied Surface Science, 2013, 287, 270-275.(材料科學類二區,SCI影響因子7.392).
[42] Shang Hui Chen , Jian Yi Luo*(通訊作者), Hui Dong Tan, Jian Chen, Shao Zhi Deng, and Ning Sheng Xu*, Study of self-heating phenomenon and its resultant effect on ultrafast gasochromic coloration of Pt-WO3 nanowire films. Sensors and Actuators B, 2012, 173, 824-832.(工程技術類一區Top, SCI影響因子9.221).
[43] Jian Yi Luo*(通訊作者), Li Gong, Hui Dong Tan, Shao Zhi Deng, Ning Sheng Xu*, Qing Guang Zeng, Study of the catalyst poisoning and reactivation of Pt nanoparticles on the surface of WO3 nanowire in gasochromic coloration. Sensors and Actuators B, 2012, 171-172, 1117-1124.(工程技術類一區Top, SCI影響因子9.221).
[44] Jian Yi Luo, Ning Sheng Xu*, Fu Li Zhao*, Shao Zhi Deng, and Yu Ting Tao, Ultraviolet superfluorescence from oxygen vacancies in WO3-x nanowires at room temperature. Journal of Applied Physics, 2011, 109, 024312.(物理類三區,SCI因子2.877).
[45] Lian Feng Zhu, Jun Cong She, Jian Yi Luo, Shao Zhi Deng, Jun Chen, Xue Wen Ji, and Ning Sheng Xu*, Self-heated hydrogen gas sensors based on Pt-coated W18O49 nanowire networks with high sensitivity, good selectivity and low power consumption. Sensors and Actuators B, 2010, 153, 354-360.(工程技術類一區Top, SCI影響因子9.221).
[46] Lian Feng Zhu, Jun Cong She, Jian Yi Luo, Shao Zhi Deng, Jun Chen, and Ning Sheng Xu*, Study of physical and chemical processes of H2 sensing of Pt-coated WO3 nanowire films. Journal of Physical Chemistry C, 2010, 114, 15504-15509.(化學類二區Top, SCI影響因子4.177).
[47] Jian Yi Luo, Shao Zhi Deng, Fu Li Zhao, Lian Feng Zhu, Li Gong, Jian Chen, and Ning Sheng Xu*, Evidence of localized water molecules and their role in the gasochromic effect of WO3 nanowire films. Journal of Physical Chemistry C, 2009, 113, 15877-15881.(化學類二區,SCI影響因子4.177).
[48] Jian Yi Luo, Fu Li Zhao*, Li Gong, Huan Jun Chen, Jun Zhou, Zheng Lin Li, Shao Zhi Deng, and Ning Sheng Xu*, Ultraviolet-visible emission from three-dimensional WO3-x nanowire networks. Applied Physics Letters, 2007, 91, 093124.(物理類二區,SCI影響因子3.971).
獲獎情況:
2024年���,獲評2023年享受國務院政府特殊津貼專家。
2023年,“一種觸覺傳感器”�,第十屆廣東專利獎優秀獎(第一完成人)��。
2023年���,“一種碳基柔性觸覺傳感器技術”,2023年度國家發明創業獎創新獎二等獎(第一完成人)����。
2023年����,“基于碳纖維柔性觸覺傳感關鍵技術及其產業應用”����,2023年度“無限創新”江門科學技術獎一等獎(第一完成人)��。
2022年�����,被評為江門市2022年度“十佳教師”。
2021年,“基于虛實仿真重構與3D打印的機織學創新教學與實踐”����,中國紡織工業聯合會紡織高等教育教學成果獎二等獎(第四完成人)�����。
2021年,“一種碳基的柔性觸覺傳感器技術”�,2021年首屆江門市高價值專利培育布局大賽初創組·金獎(第一完成人)。
2021年�����,“一種碳基的柔性觸覺傳感器技術”��,2021年粵港澳大灣區高價值專利培育布局大賽發明初創組百強項目(第一完成人)�。
2021年��,“以項目為載體、平臺為支撐�����,跨學科培養創新創業人才的探索與實踐”��,五邑大學第十六次教學成果獎一等獎(第一完成人)�。
2021年����,“面向需求與產出的光電類德才雙修應用型人才培養的探索與實踐”����,五邑大學第十六次教學成果獎二等獎(第五完成人)�����。
2021年,被評為“2021年度江門市優秀科技工作者”。
2020年����,“一種基于鋰離子三維運動的電致變色器件及其應用”�,第七屆廣東專利獎優秀獎(第二完成人)。
2020年,“一種柔性觸覺傳感技術”�����,第二十四屆全國發明展覽會“發明創業獎·項目獎”銀獎����,(第一完成人)�。
2020年,“一種觸覺傳感技術”����,2020年第八屆澳門國際創新發明展金獎(第一完成人)。
2020年�,“面向區域產業發展需求����,多維度全 培養光電行業創新人才”�,第九屆廣東省教育教學成果獎(高等教育)二等獎(第六完成人)。
2019年����,帶領五邑大學柔性傳感材料與器件研究開發中心團隊獲得“2018-2019年度江門市青年文明號集體”稱號(第一完成人)�。
2019年,一種控制鋰離子在固體薄膜中橫向移動的技術�����,2019年全國發明展覽會銅獎�����,(第二完成人)。
2019年,一種控制鋰離子在固體薄膜中橫向移動的技術,2019粵港澳大灣區高價值專利布局大賽50強(第一完成人)����。
2019年����,被評為“江門市優秀共產黨員”�。
2018年�����,被評為江門市首屆 “僑鄉青年榜樣”��。
2018年,被評為“南粵優秀教師”�����。
2018年�����,金屬及金屬氧化物納米結構薄膜材料的合成�����、光電特性及其應用基礎研究,2017年江門市科學技術獎一等獎(第一完成人)�����。
2018年���,“協同���、創新”理念下應用型人才分類培養的實踐-以半導體綠色光源專業為例”,第八屆廣東省教學成果獎(高等教育)二等獎(第四完成人)�����。
2017年��,多維度功能化金屬銀納米結構的可控合成及應用開發研究�,2016年江門市科學技術獎二等獎(第五完成人)�����。
2017年���,論文“形貌可控的金屬氧化物納米材料及其表面染料吸附效應”被評為“江門市2015-2016年度自然科學優秀學術論文”二等獎(第一完成人)。
2015年獲得廣東省自然科學杰出青年基金的資助����。
2015年入選廣東高校優秀青年教師培養計劃對象。
2015年����,論文“Pt修飾WO3納米線薄膜在氣致變色中的自加熱效應及其發生機制”被評為“江門市2013-2014年度自然科學優秀學術論文”二等獎(第一完成人)��。
2015年,論文“變溫Raman光譜研究Pt-WO3納米線薄膜的氫氣傳感機理”獲得廣東省科學技術協會“第四屆南粵科技創新優秀學術論文”三等獎(第一完成人)�。
2013年��,論文“自加熱效應及其對Pt-WO3納米線薄膜的快速氣致變色影響的研究”被評為“江門市2011-2012年度自然科學優秀學術論文”二等獎(第一完成人)。
2012年入選為第七批廣東省高等學?���!扒О偈惫こ绦<壟囵B對象(結題為優秀等級)����。
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