谢燕楠

发布者:材料科学与工程学院、信息科学与纳米技术研究院 发布时间:2018-09-25浏览次数:22416



     谢燕楠,男,汉族,福建安溪人。

      南京邮电大学材料科学与工程学院  教授、博士生导师



1. 联系方式:

办公地点:南京市文苑路9南京邮电大学仙林校区教五楼313

Email: iamynxie@njupt.edu.cn

2. 个人简历:

2018.09-至今,南京邮电大学材料科学与工程学院,教授、博士生导师;

2015.08-2018.08,厦门大学能源学院,能效工程研究所副所长、助理教授、硕士生导师;

2012.08-2014.10,美国佐治亚理工学院材料科学与工程系,联合培养博士研究生

2012.02-2012.06,美国特拉华大学物理系,访问博士研究生

2007.09-2014.12,厦门大学物理系,微电子学与固体电子学,工学博士;

2003.09-2007.07,南京理工大学理学院,应用物理学,理学学士

3. 研究方向:

 (1柔性电子与传感

 (3纳米发电机与自驱动系统

3)光催化材料与系统

 (4纳米功能材料与器件

 (5半导体光电材料与器件

4. 主要研究项目:

(1)   国家自然科学基金面上项目,2020.01-2023.12,主持

(2)   国家重点研发计划纳米前沿项目,2022.04-2027.03,项目骨干

(3)   江苏省“双创计划”人才项目,2020.09-2023.09,主持

(4)   国家自然科学基金青年基金项目,2017.01-2019.12,主持

5. 主要学术成绩

在微纳能源、自驱动传感系统等方面取得多项重要研究成果ReutersCCTVChemical & Engineering NewsAdvances in Engineering等多家国内外媒体报道。在国际知名学术刊物Advanced MaterialsACS NanoAdvanced ScienceNano EnergyNature CommunicationsNano LettersBiosensors and Bioelectronics等上发表学术论文50 6篇入选ESI高被引论文,第一作者和通讯作者30余篇,被引用6468H因子为31。申请30余项发明专利,已授权中国发明专利14项、美国发明专利1项。担任Advanced MaterialsAdvanced Energy MaterialsACS Energy LettersAdvanced Functional MaterialsNano EnergyACS NanoIEEE Transactions on Industrial Electronics40余个国际期刊审稿人。多次受邀在美国电化学学会(ECS)、国际电气与电子工程师协会(IEEE)等国际学术会议做邀请报告。

6. 奖励荣誉:

(1)    江苏省高层次创新创业人才(双创人才)(2020

(2)    福建省优秀博士学位论文(2015

(3)    厦门市“双百计划”海外高层次人才、领军型人才(2015

(4)    南京邮电大学“1311人才计划”鼎山学者(2020

(5)    南京邮电大学“三育人”先进个人(2022

7. 学生培养:

(1)    第八届中国国际“互联网+”大学生创新创业大赛 全国金奖2022

(2)    第十四届全国大学生节能减排社会实践与科技竞赛 全国一等奖2021

(3)    全国青少年零碳科技大展 领航项目2021)(最高奖,全国15

(4)    第十七届“挑战杯”全国大学生科技作品竞赛 全国三等奖2022

(5)    第十七届“挑战杯”全国大学生科技作品竞赛江苏省赛 江苏省特等奖2021

(6)    “兆易创新杯”第十七届中国研究生电子设计竞赛 华东分赛区三等奖2022

(7)    第一届江苏省大学生节能减排社会实践与科技竞赛 江苏省等奖2021

(8)    5届纳米能源与纳米系统国际会议(NENS 2021Poster Award2021

(9)    南京邮电大学“优秀毕业研究生”(2022

(10)  研究生获得国家奖学金4人次

(11)  江苏省研究生科研与实践创新计划项目(20192022

8. 课题组往届成员:

高海齐2023年博士后出站,现为新疆大学副教授,入选新疆“天池英才”引进计划)

何明会2019年硕士毕业,现为共青团播州区委副书记

王书棠2020年硕士毕业,现任职远景科技

林鸿宾2020年硕士毕业,现于新加坡国立大学读博

刘颖  2021年硕士毕业,现任职中国通信服务

徐庆昊2022年硕士毕业,现于清华-伯克利读博

胡宁  2022年硕士毕业,现任职华为

张思源2022年硕士毕业,现任职中兴

张江宏2020年访问,现于南洋理工大学读博

9. 硕博研究生招生、博士后招聘:

课题组开展多学科交叉研究,热忱欢迎电子、材料、物理、化学、生物、医学、自动化、计算机等相关专业背景的学生、博士加入。

10. 代表性著作:

科研论文代表作:

(1)B. Y. Dai, J. H. Guo, C. C. Gao, H. Yin, Yannan Xie*(通讯作者), Z. Q. Lin*, “Recent Advances in Efficient Photocatalysis via Modulation of Electric and Magnetic Fields and Reactive Phase Control”. Advanced Materials, 2210914, (2023). (影响因子:32.086

(2)H. Q. Gao, M. A. Hu, J. F. Ding, B. L. Xia, G. L. Yuan, H. S. Sun, Q. H. Xu, S. Y. Zhao, Y. W. Jiang, H. Wu, M. Yuan, J. H. Li, B. X. Li, J. Zhao,* D. W. Rao,* Yannan Xie*(通讯作者), Advanced Functional Materials, 2213410, (2023). (影响因子:19.924

(3)J. Y. Chen, X. Qiao, X. R. Han, J. H. Zhang, H. B. Wu, Q. He, Z. B. Chen, L, Shi, Y. Z. Wang, Yannan Xie*(通讯作者), Y. W. Ma*, J. Zhao*, “Releasing plating-induced stress for highly reversible aqueous Zn metal anodes”. Nano Energy, 103, 107814, (2022).(影响因子:19.069

(4) B. Y. Dai, C. C. Gao, Yannan Xie*(通讯作者), “Flexible wearable devices for intelligent health monitoring”. View, 3, 20220027, (2022).

(5) M. Yuan*, W. P. Yu, Y. W. Jiang, Z. J. Ding, Z. F. Zhang, X. Y. Zhang, Yannan Xie*(通讯作者), “Triboelectric nanogenerator metamaterials for joint structural vibration mitigation and self-powered structure monitoring”. Nano Energy, 103, 107773, (2022).(影响因子:19.069

(6) B. Y. Dai, Y. H. Zhou, X. Xiao, Y. K. Chen, J. H. Guo, C. C. Gao, Yannan Xie*(通讯作者), J. Chen*, “Fluid Field Modulation in Mass Transfer for Efficient Photocatalysis”. Advanced Sciences, 9, 2203057, (2022). (影响因子:17.521

(7) J. H. Zhang, Q. H. Xu, H. Li, S. Y. Zhang, A. J. Hong, Y. W. Jiang, N. Hu, G. L. Chen, H. Y. Fu, M. Yuan, B. Y. Dai, L. Chu*, D. L. Yang*, Yannan Xie*(通讯作者), “Self-Powered Electrodeposition System for Sub-10-nm Silver Nanoparticles with High-Efficiency Antibacterial Activity”, The Journal of Physical Chemistry Letters, 13, 6721-6730, (2022).(影响因子:6.888

(8) S. Shi, Y. W. Jiang, Q. H. Xu, J. H. Zhang, Y. M. Zhang, J. H. Li, Yannan Xie*(通讯作者), Z. P. Cao*, “A self-powered triboelectric multi-information motion monitoring sensor and its application in wireless real-time control”, Nano Energy, 97, 107150, (2022).(影响因子:19.069

(9)H. Q. Gao, J. Wang, X. R. Zhang, M. A. Hu, Q. H. Xu, Yannan Xie*(通讯作者), Y, Z, Liu*, R. F. Lu*, “Confined Lamellar Channels Structured by Multilayer Graphene for High-Efficiency Desalination”, Desalination, 530, 115681, (2022). (影响因子:11.211

(10) M. Yuan*, C. H. Li, S. Zhang, Yannan Xie*(通讯作者), “An Automated Power Evaluation Workbench for Triboelectric Nanogenerators”, Micromachines, 13, 444, (2022).

(11)B. Y. Dai, H. Q. Feng, Z. Li*, Yannan Xie*(通讯作者), “Field Enhanced Photocatalytic Disinfection”, Science Bulletin, 67, 779-783, (2022). (影响因子:20.577

(12)H. Q. Gao, Q. H. Xu, J. Wang, C. Ning, Y. Z. Liu, Yannan Xie*(通讯作者), R. F. Lu*, “Beyond the Pore Size Limitation of Nanoporous Graphene Monolayer Membrane for Water Desalination Assisted by External Electric Field”, The Journal of Physical Chemistry Letters, 13, 258-266, (2022). (封面文章)(影响因子:6.888

(13) Q. H. Xu, Y. T. Lu, S. Y. Zhao, N. Hu, Y. W. Jiang, H. Li, Y. Wang, H. Q. Gao, Y. Li, M. Yuan, L. Chu, J. H. Li, Yannan Xie*(通讯作者), “A Wind Vector Detecting System Based on Triboelectric and Photoelectric Sensors for Simultaneously Monitoring Wind Speed and Direction”, Nano Energy, 89, 106382, (2021).(影响因子:19.069

(14) Q. H. Xu, Y. S. Fang, Q. S. Jing, N. Hu, K. Lin, Y. F. Pan, L. Xu, H. Q. Gao, M. Yuan, L. Chu, Y. W. Ma, Yannan Xie*(通讯作者), J. Chen*, L. H. Wang*, “A portable triboelectric spirometer for wireless pulmonary function monitoring”, Biosensors and Bioelectronics, 187, 113329, (2021). (影响因子:12.545

(15)X. J. Lin, C. C. Chu, Z. Li, T. T. Zhang, J. Y. Chen, R. Q. Liu, P. Li, Y. Li, J. Zhao, Z. D. Huang, X. M. Feng, Yannan Xie*(通讯作者), Y. W. Ma*, “A high-performance, solution-processable polymer/ceramic/ionic liquid electrolyte for room temperature solid-state Li metal batteries”, Nano Energy, 89, 106351, (2021).(影响因子:19.069

(16)M. Yuan*, C. H. Li, H. M. Liu, Q. H. Xu, Yannan Xie*(通讯作者), “A 3D-printed acoustic triboelectric nanogenerator for quarter-wavelength acoustic energy harvesting and self-powered edge sensing”, Nano Energy, 85, 105962, (2021).(影响因子:19.069

(17) C. Y. Zhao, X. L. Wang, X. Chen, Y. Liu, Yannan Xie*(通讯作者), and H. Xu*, Covalent interactions between carbon nanotube and P3HT by thiol-ene click chemistry towards improved thermoelectric performance, Materials Chemistry Frontiers, 4, 1174-1181, (2020).

(18) Yannan Xie*(通讯作者), W. F. Yang, Q. H. Xu, X. Y. Shi, Y. Li, H. L. Huang, R. D. Hong, X. P. Chen, Z. Y. Wu*, Effects of thermal annealing on Ti/Au contacts to anatase TiO2 nanocrystal films prepared by sol-gel method, Journal of Nanoelectronics and Optoelectronics, 15, 389-393, (2020).

(19)H. B. Lin, Y. Liu, S. L. Chen, Q. H. Xu, S. T. Wang, T. Hu, P. F. Pan, Y. Z. Wang, Y. L. Zhang, N. Li, Y. Li, Y. W. Ma, Yannan Xie*(通讯作者), L. H. Wang*, Seesaw structured triboelectric nanogenerator with enhanced output performance and its applications in self-powered motion sensing”, Nano Energy, 65, 103944, (2019).(影响因子:19.069

(20) H. B. Lin, M. H. He, Q. S. Jing, W. F. Yang, S. T. Wang, Y. Liu, Y. L. Zhang, J. Li, N. Li, Y. W. Ma, L. H. Wang*, Yannan Xie*(通讯作者), Angle-shaped triboelectric nanogenerator for harvesting environmental wind energy, Nano Energy, 56, 269-276, (2019).(影响因子:19.069

(21) Y. J. Yu, Y. C. Wang, S. Zhang, P. Y. Zhang, S. Xue, Yannan Xie*(通讯作者),  Z. Y. Zhou*, J. Li*, J. Y. Kang, The construction of integrated Si-based micro proton exchange membrane fuel cells with improved performances, Nano Energy, 61, 604-610, (2019).(影响因子:19.069

(22)S. T. Wang, M. H. He, B. J. Weng, L. H. Gan, Y. R. Zhao, N. Li, Yannan Xie*(通讯作者), Stretchable and wearable triboelectric nanogenerator based on kinesio tape for self-powered human motion sensing, Nanomaterials, 8, 657, (2018).

(23)M. H. He, Y. J. Lin, C. M. Chiu, W. F. Yang, B. B. Zhang, D. Q. Yun, Yannan Xie*(通讯作者), Z. H. Lin*, A flexible photo-thermoelectric nanogenerator based on MoS2/PU photothermal layer for infrared light harvesting, Nano Energy, 49, 588-595, (2018).(影响因子:19.069

(24)Yannan Xie, T. M. Chou, W. F. Yang, M.H. He, Y. R. Zhao, N. Li, Z. H. Lin*, Flexible thermoelectric nanogenerator based on the MoS2/graphene nanocomposite and its application for a self-powered temperature sensor, Semiconductor Science and Technology, 32, 044003, (2017).

(25)L. Lin+, Yannan Xie+(共同第一作者), S. M. Niu, S. H. Wang, P. K. Yang, Z. L. Wang*, Robust triboelectric nanogenerator based on rolling electrification and electrostatic induction at an instantaneous energy conversion efficiency of ~55%, ACS Nano, 9, 922-930, (2015). (ESI高被引论文)(影响因子:18.027

(26)Yannan Xie+, S. H. Wang+, S. M. Niu+, L. Lin, Q. S. Jing, J. Yang, Z. Y. Wu, Z. L. Wang*, Grating-structured freestanding triboelectric-layer nanogenerator for harvesting mechanical energy at 85% total conversion efficiency, Advanced Materials, 26, 6599-6607, (2014). (ESI高被引论文)(影响因子:32.086

(27) Yannan Xie+, S. H. Wang+, S. M. Niu, L. Lin, Q. S. Jing, Y. J. Su, Z. Y. Wu, Z. L. Wang*, Multi-layered disk triboelectric nanogenerator for harvesting hydropower, Nano Energy, 6, 129-136, (2014).(影响因子:19.069

(28) S. H. Wang+, Yannan Xie+(共同第一作者), S. M. Niu+, L. Lin, Z. L. Wang*, Freestanding triboelectric-layer-based nanogenerators for harvesting energy from a moving object or human motion in contact and non-contact modes, Advanced Materials, 26, 2818-2824, (2014). (ESI高被引论文)(影响因子:32.086

(29) Yannan Xie+, S. H. Wang+, L. Lin, Q. S. Jing, Z. H. Lin, S. M. Niu, Z. Y. Wu, Z. L. Wang*, Rotary triboelectric nanogenerator based on a hybridized mechanism for harvesting wind energy, ACS Nano, 7, 7119-7125, (2013).(影响因子:18.027

(30)  L. Lin+, Yannan Xie+(共同第一作者), S. H. Wang+, W. Z. Wu, S. M. Niu, X. N. Wen, Z. L. Wang*, Triboelectric active sensor array for self-powered static and dynamic pressure detection and tactile imaging, ACS Nano, 7, 8266-8274, (2013). (ESI高被引论文)(影响因子:18.027

(31) Yannan Xie, H. L. Huang, W. F. Yang, Z. Y. Wu*, Low dark current metal-semiconductor-metal ultraviolet photodetectors based on sol-gel-derived TiO2 films, Journal of Applied Physics, 109, 023114, (2011).

授权发明专利:

(1)  旋转式静电发电机,谢燕楠、王思泓、王中林,专利号:ZL201310201386.8,授权日期:2016.05.04

(2)  光热电转换组件及其制造方法,谢燕楠、何明会、张彬彬、林宗宏、王书棠、林鸿宾,专利号:ZL201810122047.3,授权日期:2019.5.7

(3)  光热电转换器件及其制造方法,谢燕楠、何明会、张彬彬、林宗宏、王书棠、林鸿宾,专利号:ZL201810468471.3,授权日期:2020.9.1

(4)  风力发电系统及风力发电方法,谢燕楠、林鸿宾、张彬彬,专利号:ZL201810631873.0,授权日期:2020.12.1

(5)  一种联动式摩擦纳米发电器件及其应用,谢燕楠、林鸿宾、徐庆昊,专利号:ZL201910699284.0,授权日期:2021.8.10

(6)  一种自驱动摩擦纳米运动传感装置及其传感方法,谢燕楠、林鸿宾、徐庆昊,专利号:ZL201910699061.4,授权日期:2021.8.10

(7)  一种新型的摩擦纳米发电机滤波装置,胡宁、谢燕楠,专利号:ZL202110591908.4,授权日期:2022.7.26

(8)  一种压力传感器、电子皮肤和触屏设备,王中林、林龙、谢燕楠、王思泓、范凤茹,专利号:ZL201310349589.1,授权日期:2016.04.06

(9)  一种非接触式静电感应纳米发电机、发电机组和发电方法,王思泓、王中林、林龙、谢燕楠、牛思淼,专利号:ZL201310717736.6,授权日期:2017.01.05

(10) 基于独立摩擦层的纳米发电机、发电机组和发电方法,朱光、王思泓、王中林、林龙、谢燕楠、牛思淼,专利号:ZL201310611797.4,授权日期:2017.08.08

(11)一种滚动式摩擦纳米发电机,王中林、林龙、谢燕楠,专利号:ZL201410821675.2,授权日期:2018.10.30

(12) Robust Triboelectric Nanogenerator Based on Rolling Electrification Zhong Lin Wang, Long Lin, Yannan Xie, Zong-Hong Lin, Gang Cheng, Hengyu Guo, Jun Chen,授权号:US10333430B2,授权日期:2019.06.25

(13)一种基于四分之一波长管的声学摩擦纳米发电机,袁明、刘红棉、李春晖、谢燕楠,专利号:ZL202110087555.4,授权日期:2022.7.12

(14) 海洋结构物双重防腐方法,董必钦、谭明务、张媛媛、王琰帅、洪舒贤、楚亮、谢燕楠,专利号:ZL202110259679.6,授权日期:2022.6.10

(15)一种提升低频输出的按压式摩擦纳米发电机,袁明、刘红棉、李春晖、谢燕楠,专利号:ZL202110869025.5,授权日期:2023.1.17