张学民

个人简介



姓名:张学民

职称:副教授,博士生导师

专业:物理化学

职务:物化学科本科教学组长

研究方向:金属/半导体敏感材料及光学电学传感器

联系方式

E-mail:zhangxuemin@mail.neu.edu.cn

办公电话:15040255070

个人简历

2012年于吉林大学化学学院超分子材料与工程国家重点实验室获得高分子化学与物理博士学位(导师:杨柏教授);

2012-2014年于厦门大学化学化工学院固体物理表面化学国家重点实验室从事博士后工作(合作导师:田中群院士)

2014-2017年:东北大学理学院化学系,讲师;

2016-2017年:美国Rice大学电子工程系,访问学者;

2018年至今:东北大学理学院化学系,副教授;


研究兴趣

表面等离激元、气体传感器、纳米光学


荣誉奖励

第八届纳米光子学国际会议The Best Poster Award (2015)

中国博士后科学基金选介 (2014)

吉林大学优秀博士毕业生 (2012)

第六届华人纳米论坛“蔡镏生”优秀墙报奖 (2011)

吉林大学2011年杰出人才资助计划 (2011)

2010纳米、表面和Graphene科学与技术全国会议优秀墙报奖 (2010)

承担项目

1. 基于金属钯动态转变过程制备可视化光学氢气传感器,国家自然科学基金面上项目(60万,编号:221750312022-2025

2. 基于“点接触”纳米间隙阵列结构制备高性能钯氢电学传感器,国家自然科学基金青年基金(21万,编号:215030372016-2018

3. 基于金(银)/钯多元复合结构制备高性能等离激元氢气传感器,教育部中央高校基本科研业务费(10万,编号:N21050102021-2022

4. 基于金属壳层纳米粒子构筑高性能表面增强红外光谱基底,辽宁省科技厅博士启动基金(3万,编号:2015011492015-2017

5. 超薄金壳层纳米粒子的制备及组装,教育部中央高校基本科研业务费(9万,编号:1505040052016-2017



承担课程

物理化学(双语课程,辽宁省一流本科课程)

结构化学(国家精品在线开放课程,辽宁省一流本科课程)

纳米材料表面等离激元光谱学(双语课程)

代表性论文

  1. Huili Zhu, Xuemin Zhang* et al. “Introducing oxygen vacancies on sodium titanate via NaBH4 treatment for conductometric hydrogen gas sensors Sens. Actuators B Chem.2023, 375, 132916.

  2. Chao Li, Xuemin Zhang* et al. “Hydrogen-Induced Aggregation of Au@Pd Nanoparticles for Eye-Readable Plasmonic Hydrogen SensorsACS Sens.2022, 7, 9228.

  3. Shuang Yang, Xuemin Zhang* et al. “Pd-decorated PdO Nanoparticle Nanonetworks: A Low-Cost Eye-Readable H2 Indicator with Reactivation Ability Sens. Actuators B Chem.2022, 368, 132242.

  4. Junbiao Wu, Xuemin Zhang* et al. “Ti3C2 MXene-Derived Sodium Titanate Nanoribbons for Conductometric Hydrogen Gas Sensors Sens. Actuators B Chem.2022, 361, 131693.

  5. Qian Li, Xuemin Zhang* et al. “Controllable Fabrication of PdO-PdAu Ternary Hollow Shells: Synergistic Acceleration of H2-Sensing Speed via Morphology Regulation and Electronic Structure Modulation Small2022, 18, 2106874.

  6. Shuang Yang, Xuemin Zhang* et al. “Enhancing the Hydrogen-Sensing Performance of p Type PdO by Modulating the Conduction ModelACS Appl. Mater. Interfaces2021, 13, 52754–52764.

  7. Xiang Li,Xuemin Zhang*, Yang Li* et al. “Self-healing superhydrophobic conductive coatings for self-cleaning and humidity-insensitive hydrogen sensorsChem. Eng. J.2021, 410, 128353.

  8. Yuming Zhao, Xuemin Zhang*, Yu Fu* et al. “Construction of Zn/Ni Bimetallic Organic Framework Derived ZnO/NiO Heterostructure with Superior N-Propanol Sensing PerformanceACS Appl. Mater. Interfaces2021, 13, 9206–9215.

  9. Hui Yang, Xuemin Zhang* et al. “Fabrication of Wide-detection-range H2 Sensors with Controllable Saturation Behavior Using Au@Pd Nanoparticle ArraysChem. Comm.2020, 56, 12636-12639.

  10. Zhimin Gao, Xuefei Li, Xuemin Zhang* et al. “Pd Decorated PdO Hollow Shells: a H2 Sensing System in Which Catalyst Nanoparticle and Semiconductor Support are InterconvertibleACS Appl. Mater. Interfaces2020, 12, 42971–42981.

  11. Zhimin Gao, Xuemin Zhang* et al. “A Facile PDMS Coating Approach to Room-temperature Gas Sensors with High Humidity Resistance and Long-term Stability” Sens. Actuators B Chem.2020, 325, 128810.

  12. Sha Wang,Xuemin Zhang*, Yu Fu* et al. “Copper Oxide Hierarchical Morphology Derived from MOF Precursors for Enhancing Ethanol Vapor Sensing PerformanceJ. Mater. Chem. C2020, 8, 9671.

  13. Yanhua Sang,Xuemin Zhang*, et al. “Sea Urchin-like CuO Particles Prepared Using Cu3(PO4)2 Flowers as Precursor for High Performance Ethanol SensingNanotechnology2020, 31, 165504.

  14. Xuefei LiXuemin Zhang* et al. “Characterization and Optimization of the H2 Sensing Performance of Pd Hollow Shells” Sens. Actuators B Chem. 2019, 195, 101.

  15. Xuemin Zhang*, et al. “Optimally Designed Gold Nanorattles with Strong Built-in Hotspots and Weak Polarization DependenceNanotechnology2017, 28, 495201.

  16. Xuemin Zhang*, et al. “Metallic Nanoshells with Sub-10 nm Thickness and TheirPerformance as Surface-Enhanced Spectroscopy SubstrateACS Appl. Mater. Interfaces2016, 8, 9889.

  17. Xuemin Zhang*, et al. “Optical properties of SiO2@M (M=Au, Pd, Pt) core–shell nanoparticles: material dependence and damping mechanismsJ. Mater. Chem. C2015, 3, 2282.

  18. Zhongqun Tian* and Xuemin ZhangElectrochemical Surface-Enhanced Raman Spectroscopy: Early History, Principles, Methods and Experiments.In Developments in Electrochemistry: Science Inspired by Martin Fleischmann, 2014, Wiley-VCH Verlag GmbH & Co. KGaA.

  19. Xuemin Zhang, Junhu Zhang*, Bai Yang et al. “Panchromatic Plasmonic Color Patterns: from Embedded Ag Nanohole Arrays to Elevated Ag Nanohole Arrays” J. Mater. Chem. C2013, 1, 933.

  20. Xuemin Zhang, Junhu Zhang*, Bai Yang et al. “Elevated Ag Nanohole Arrays for High Performance Plasmonic Sensors Based on Extraordinary Optical Transmission”J. Mater. Chem.2012, 22, 8903.

  21. Xuemin Zhang, Junhu Zhang*, Bai Yang et al. “Thermal-induced Surface Plasmon Band Shift of Gold Nanoparticle Monolayer: Morphology and Refractive Index Sensitivity” Nanotechnology2010, 21, 465702.

  22. Xuemin Zhang, Junhu Zhang*, and Bai Yang et al. “Photoinduced Cleaning of Water-soluble Dyes on Patterned Superhydrophilic/superhydrophobic Substrates” Nanoscale2010, 2, 277.

  23. Xuemin Zhang, Junhu Zhang, Bai Yang* et al. “Morphology and Wettability Control of Silicon Cone Arrays Using Colloidal Lithography” Langmuir2009, 25, 7375.