姓名:張艷 職稱👩🏿:副教授,研究生導師
指導研究方向🧛🏼𓀏:材料物理與化學🙇🏿♂️🕺,納米材料與器件,復合材料
通訊地址:上海市松江區龍騰路333號
電子郵箱🧑🦳:yanzhang@sues.edu.cn
聯系電話🚴:021-67791380
教育經歷:
2008.09-2013.06上海交通大學👨🦽➡️,材料科學與工程專業🏇🏻,博士
2004.09-2008.07華東理工大學,無機非金屬材料工程專業,學士
工作經歷📇:
2021.06-至今 意昂体育4平台,意昂体育4开户🛶,電子封裝技術系副系主任
2020.01-至今意昂体育4平台🦢,意昂体育4开户👩🦼,副教授
2013.07-2019.12 意昂体育4平台,意昂体育4开户,講師
研究方向💪🏻:
(1)納米材料的可控合成👩🏿;
(2)先進功能材料製備🤾🏻🤬;
(3)生物傳感器、氣體傳感器、柔性傳感器🪶、致動器👩🏽⚖️。
研究情況🎢:
長期致力於納米材料、二維材料的製備、表征及應用研究,探索納米材料在傳感器🧑🦲、致動器等重要領域的應用🕴🏻。作為項目負責人先後主持國家自然科學基金青年基金🍒、上海市“揚帆計劃”👊🏽、意昂体育4平台“展翅計劃”等項目。目前發表SCI論文30余篇,其中以第一作者或者通訊作者在Small、Sensors and Actuators B: Chemical🦦、Nanoscale等國際期刊上發表SCI論文20余篇。SCI他引1400多次,單篇引用>100次的論文共計3篇🧑🏽🎨,ESI高被引論文3篇。培養10余名碩士研究生,其中多名碩士研究生榮獲上海市優秀畢業生稱號。
論文信息👨🦽:
(1) Ling Li, Guangwen Jia, Wenwei Huang, Jiayi Zhou, Chenxing Li, Jingxuan Han, Yan Zhang*, Xuejiao Zhou*, Multi-responsive soft actuator with integrated ultrasensitive sensing performances for human motion detection and soft robots, Sensors & Actuators: A. Physical 2023, 351:114149
(2) Chenxing Li, Ao Zheng, Jiayi Zhou, Wenwei Huang, Yan Zhang*, Jingxuan Han, et al. A self-adhesive, self-healing and antibacterial hydrogel based on PVA/MXene-Ag/sucrose for fast-response, high-sensitivity and ultra-durable strain sensors, New Journal of Chemistry 2023, 47: 6621-6630
(3) Y. Zhang*, L. Zhang, C. Li, J. Han, W. Huang, J. Zhou, et al. Hydrophilic antifouling 3D porous MXene/holey graphene nanocomposites for electrochemical determination of dopamine,Microchemical Journal 2022, 181: 107713
(4) L. Zhang, C. Li, Y. Yang, J. Han, W. Huang, J. Zhou, Y. Zhang*, Anti-biofouling Ti3C2TX MXene-holey graphene modified electrode for dopamine sensing in complex biological fluids, Talanta, 2022,247:123614
(5) Huang, J. Zhou, Y. Yang*, Hydrophilic antifouling 3D porous MXene/holey graphene nanocomposites for electrochemical determination of dopamine, Microchem. J., 2022, 181:107713.
(6) G. Jia, A. Zheng, X. Wang, L. Zhang, L. Li, C. Li, Y. Zhang*, L. Cao*, Flexible, biocompatible and highly conductive MXene-graphene oxide film for smart actuator and humidity sensor, Sens. Actuators B Chem., 2021,346:130507.
(7) Z. Chen, Y. Zhang *, Y. Yang, X. Shi*, L. Zhang, G. Jia, Hierarchical nitrogen-doped holey graphene as sensitive electrochemical sensor for methyl parathion detection, Sens. Actuators B Chem., 2021, 336: 129721.
(8) J. Zhou, Y. Zhang *, G. Jia, Z. Chen, Y. Yang*, L. Zhang, A multifunctional sponge incorporated with TiO2 and graphene oxide as a reusable absorbent for oil/water separation and dye absorption. New J. Chem. 2021, 45, 4835-4842.
(9) J. Zhou, Y. Zhang *, Y. Yang, Z. Chen, G. Jia, L. Zhang, Silk fibroin-graphene oxide functionalized melamine sponge for efficient oil absorption and oil/water separation, Appl. Surf. Sci., 2019, 497: 143762. 一區⛪️,IF=7.392
(10) Z. Chen, Y. Zhang*, J. Zhang, J. Zhou, Electrochemical sensing platform based on three-dimensional holey graphene for highly selective and ultra-sensitive detection of ascorbic acid, uric acid, and nitrite, J. Electrochem. Soc., 2019, 166(10): B787-B792.
(11) L. Wang, Y. Zhang*, J. Zhang, X. Zhou*, Preparation of an Au nanoparticle-graphene oxide quantum dot hybrid and its use in surface-enhanced Raman scattering. New Carbon Mater. 2019, 34 (6), 606-610.
(12) J. Zhang, Y. Zhang*, J. Zhou, L. Wang, Construction of a highly sensitive non-enzymatic nitrite sensor using electrochemically reduced holey graphene, Anal Chim Acta 2018, 1043: 28-34
(13) L. Wang, Y. Zhang*, Y. Yang, J. Zhang, Strong Dependence of Surface Enhanced Raman Scattering on Structure of Graphene Oxide Film, Materials 2018, 11(7): ma11071199
(14) Zhang, Y.; Wu, C.; Zhang, J.; Guo, S., Mass Transport Effect on Graphene Based Enzyme Electrochemical Biosensor for Oxalic Acid Detection. Journal of The Electrochemical Society 2017, 164 (2) : B29-B33,
(15) Y. Zhang*, H. Hao, L. Wang, Effect of morphology and defect density on electron transfer of electrochemically reduced graphene oxide, Applied Surface Science, 390 (2016) 385-392.
(16) Yan Zhang, Congyu Wu, Xuejiao Zhou, Xiaochen Wu, Yongqiang Yang, Haixia Wu, Shouwu Guo*, Jingyan Zhang*, Graphene Quantum Dots/Gold Electrode and Its Application in Living Cells H2O2 Detection. Nanoscale, 2013, 5(5), 1816-1819.
(17) Yan Zhang, Congyu Wu, Shouwu Guo*, Jingyan Zhang*, Interactions of Graphene and Graphene Oxide with Proteins and Peptides. Nanotechnology Rev., 2013, 2(1): 27-45.
(18) Yan Zhang, Jingyan Zhang*, Xuelei Huang, Xuejiao Zhou, Haixia Wu, Shouwu Guo*, Assembly of Graphene Oxide-Enzyme Conjugates through Hydrophobic Interaction. Small, 2012, 8(1): 154-159.
(19) Yan Zhang, Jiali Zhang, Haixia Wu, Shouwu Guo*, Jingyan Zhang*, Glass Carbon Electrode Modified with Horseradish Peroxidase Immobilized on Partially Reduced Graphene Oxide for Detecting Phenolic Compounds. J. Electroanal. Chem., 2012, 681: 49-55.
(20) Xuejiao Zhou, Yan Zhang, Chong Wang, Xiaochen Wu, Yongqiang Yang, Bin Zheng, Haixia Wu, Shouwu Guo, Jingyan Zhang, Photo-Fenton Reaction of Graphene Oxide: A New Strategy to Prepare Graphene Quantum Dots for DNA Cleavage. ACS Nano, 2012, 6(8): 6592-6599.
(21) Y. Zhang, J. Zhang, X. Huang, X. Zhou, H. Wu, S. Guo, Assembly of Graphene Oxide-Enzyme Conjugates through Hydrophobic Interaction, Small 2012, 8(1): 154-159.
(22) Yan Zhang, Haixia Wu, Xuelei Huang, Jingyan Zhang* and Shouwu Guo*, Effect of Substrate (ZnO) Morphology on Enzyme Immobilization and Its Catalytic Activity. Nanoscale Res. Lett., 2011, 6(1): 450.
專利著作:
(1) 張艷; 王玲; 張婧; 李坤; 陳壯; 一種垂直取向石墨烯基材料的製備方法, 2019-4-11,中國, ZL201710208346.4.
(2) 張艷; 周健; 陳振斐; 魏仡昕; 一種絲素蛋白/氧化石墨烯復合改性吸油海綿的製備方法🤠,2021-05-11,中國, ZL201910288638.2.
(3) 張艷;陳振斐;周健;賈廣雯;章路;一種三維多孔石墨烯基電化學電極材料及其製備與應用🙋🏼♀️, 2021-07-09, 中國,ZL201910429343.2
(4) 張艷; 周健; 陳振斐; 一種絲素/殼聚糖/多孔氧化石墨烯復合三維支架的製備方法, 2022-02-11,中國, ZL201910288808.7
(5) 張艷;賈廣雯👷🏼;章路🏄🏼;李玲;李辰星;一種具有濕度響應的MXene-GO復合膜及其製備方法與應用,2023-04-28🔱,中國,ZL20211018735.
