于灵敏

基本信息

姓名: 于灵敏                                                                                                   出生年月：1978.6

学历: 博士                                                                                                       学位: 博士

职称:教授/博士生导师                                                                                      职务: 无

学院: wedvictor伟德                                                                                      联系方式：ylmyl@163.com

 

学术兼职

1.科技部项目评审专家、国家自然基金函评专家

2.陕西省科技厅、深圳市科委，重庆市科委、安徽省科技厅项目评审专家

3.Friontiers in Materials期刊客座编辑

4.《Nano Energy》、《Small》、《ACS Sensor》、《ACS Applied Material Interface》、《Sensor and Actuators B: Chemical》等国际著名期刊审稿人

学习经历

2005年至2009年：西安交通大学  电子信息与工程学院，博士

2001年至2004年：伟德国际weide  wedvictor伟德，硕士

1997年至2001年：河北理工学院  wedvictor伟德，学士

工作经历

2011.8−2012.8：新加坡南洋理工大学，访问学者

2018.11-2019.11： 美国德克萨斯州立大学达拉斯分校，访问学者

2007.7−2010.10：伟德国际weide，讲师

2010.11−2016.12：伟德国际weide，副教授

2016.2−至今：伟德国际weide，教授

招生信息

每年招收硕士生2-3名，博士生1-2名。

教育教学

主讲课程：纳米材料导论，工程化学基础，普通化学，材料性能学等，《工程化学基础》课获得陕西省网络资源共享精品课，带头人。

研究方向

纳米材料与功能器件

科研项目

（1）高选择强抗湿兼备的垂直取向金属卟啉基COF纳米片及其NO₂气敏性能，国家自然基金面上项目，2026.1-2029.12，在研，主持。

（2）高分散负载Zn的石墨炔纳米墙可控构筑及可见光激发室温气敏特性研究，国家自然基金面上项目，2022.1-2025.12，在研，主持。

（3）二维柔性ZnO纳米墙/石墨烯气敏传感器的缺陷协同及拮抗效应研究，国家自然科学青年基金项目，2013.1-2015.12，51202177，结题，主持。

（4）ZnO纳米线对爆炸环境下有害气体的敏感性及其机理研究，国家自然科学基金面上项 目，2011.1-2013.12，51072156，结题，参与（第二完成人）。

（5）Pd/单晶SnO₂纳米片阵列的构筑及室温H₂气敏性能研究，宁夏回族自治区自然科学基金重点项目，2024.10-2027.10，主持，在研。

（6）电力变压器油中溶解气体在线监测用高性能乙炔气体传感器研制，陕西省重点研发项目，2021.1-2022.12，2021GY-227，主持，结题。

（7）SF₆电气设备分解产物在线监测用SO₂传感器的研制, 陕西省高校服务地方专项， 2020.1-2021.12，19JC020，主持，结题。

学术成果

1.2D Conductive MOFs Intercalated in MXene Interlayer for Fast and Trace Detection of Triethylamine at Room Temperature, Adv. Sci., 2025, 12, 2500786.

2.MOF-Derived Vertically Aligned Ce-Doped NiO Porous Nanowalls for Acetone Sensing, ACS Appl. Nano Mater., 2025, 8, 25, 13163–13171.

3.In-situ grown CuO/TiO₂ vertical bilayer nanorods array for sensitive CO detection at lower temperature, Sensors & Actuators: B. Chemical, 441 (2025) 138047.

4.Hydrogen substituted graphyne sheets loaded with highly dispersed WO₃ nanoparticles for NO gas-sensing detection at low temperature, Sensors & Actuators: B. Chemical, 441 (2025) 138048.

5.3D flower-like architectures assembled by ZnO porous nanosheets with higher surface area for enhanced lower temperature NO₂ gas sensors, J. Mater. Chem. C, 2025, 13, 7686–7695.

6.3D hierarchical coral-like ZnO nanoarrays with fully exposed active surfaces toward fast and sensitive detection of H₂S, Journal of alloys and compounds, 1035 (2025) 181439.

7.High conductivity of 2D hydrogen substituted graphyne nanosheets for fast recovery NH₃ gas sensors at room temperature, Carbon, 225 (2024) 119090.

8.Vertically aligned mesoporous Ce doped NiO nanowalls with multilevel gas channels for high-performance acetone gas sensors, Sensors & Actuators: B. Chemical, 401 (2024) 134888.

9.In Situ Fabrication of SnO₂ Nanowalls for Robust Acetylene Sensing at Low Temperature, ChemPhysChem, 2024, e202300634.

10.Engineering of Thickness Tunable 2D Graphdiyne Film to ZnO Nanowalls via Nanospace-Confined Synthesis Promotes NO₂ Gas Sensing Performance, Sensors & Actuators: B. Chemical, 410 (2024) 135729.

11.Layer-tunable synthesis of tetragonal Pr-doped SnO₂ nanoplates for enhanced sensitive SO₂ sensor, Sensors & Actuators: B. Chemical, 409 (2024) 135629.

12.In Situ Growth of a TiO₂ Nanosheet on Amorphous Carbonaceous Layer for Sensing NH₃ at Room Temperature, ACS Appl. Nano Mater., 2024, 7, 16042−16051.

13.Metal−Organic Framework-Derived Au-Doped In₂O₃ Nanotubes for Monitoring CO at the ppb Level, ACS Sens., 2024, 9, 4007−4016.

14.Controllable synthesis of heterostructured CuO–ZnO microspheres for NO₂ gas sensors, Sensors & Actuators: B. Chemical, 417 (2024) 136179.

15.Fe₂O₃ nanoplate/TiO₂ nanoparticles supported by 2D Ti₃C₂T_x MXene conductive layers for sensitive detection of NH₃ at room temperature, Sensors & Actuators: B. Chemical, 413 (2024) 135890.

16.Highly dispersed CeO₂ nanocubics supported on hydrogen substituted graphyne sheets for highly NH₃ gas sensing detection and humidity independent at room temperature, Sensors & Actuators: B. Chemical, 425 (2025) 136972.

17.Simultaneous Achievement of Enhanced Nonlinear Optical Absorption and Nonlinear Refraction in Highly Crystalline 2D Covalent Organic Frameworks Ultrathin Films, Adv. Sci., 2025, 2416170.

18.Unexpected Third-Order Nonlinear Optical Responses in Two Isomeric Non-Fused Ring A-D-A Electron-Acceptor Molecules, Adv. Optical Mater., 2023, 2300482.

19.Fast and Sensitive Detection of CO by Bi-MOF-Derived Porous In₂O₃/Fe₂O₃ Core−Shell Nanotubes, ACS Sens., 2023, 8, 4577−4586.

20.In-situ growth of well-ordered ZnO nanowire-networks with interconnected junctions for enhanced SO₂ gas sensing properties, Applied Surface Science, 646 (2024) 158899.

21.An enhanced triethylamine response by incorporating mesoporous CuO into nanosheet-assembled Co₃O₄ microtubes, Sensors & Actuators: B. Chemical, 379 (2023) 133230.

22.Cu-doped flower-like SnO₂ architecture toward promoting SO₂ detection: Fast equilibrium and low trace monitoring, Sensors & Actuators: B. Chemical, 390 (2023) 133953.

23.Hollow Urchin-Like Ag-Doped In₂O₃ Nanomaterials for Enhanced Low-Temperature Methanol Sensing Under UV Irradiations, ACS Appl. Nano Mater., 2023, 6, 22165−22172.

24.Ultrasensitive Pressure Sensor Sponge Using Liquid Metal Modulated Nitrogen-Doped Graphene Nanosheets, Nano Letters, 2022, 22, 7, 2817–2825.

25.Graphdiyne-based flexible respiration sensors for monitoring human health, Nano Today, 39 (2021) 101214.