学院副院长
仪器科学与技术学科
基本信息
性别:男 || 出生年月:1989.8 || 政治面貌:党员
现任职务:学院副院长
现任职称:教授
最后学历:博士 || 最后学位:工学博士 || 获学位单位:清华大学
联系方式: || 邮箱:yourui@bistu.edu.cn || 通讯地址:北京市海淀区清河小营东路12号
导师信息
硕导/博导:博导 || 批硕/博导时间:2021.5(硕导)/2021.6(博导)
在读硕士: 18人 || 毕业硕士:9 人 || 在读博士:16人 || 毕业博士:1人
所属院系、学科及研究方向
所属学院:威廉体育williamhill
所属系:智能感知工程系
所属学科:仪器科学与技术
研究方向1:MEMS
研究方向2:超材料与超表面
研究方向3:微系统技术
参加学术团体
中国仪器仪表学会传感器分会,委员
北京市海淀区科学技术协会,委员
中国计量测试学会计量仪器专业委员会,委员
中国仪器仪表学会医疗仪器分会,副理事长
中国计量测试学会技术推广与转化委员会,常务理事
科技部重点研发计划“智能传感器”专项组,专家
《红外与激光工程》期刊,青年编委
工作简历
2019.1 - 2021.2 北京大学 微纳电子学系 博士后、助理研究员
2021.3 - 至今 威廉希尔WilliamHill官方网站 威廉体育williamhill 三级教授、博导
承担教学任务
本科生课程《误差理论与数据处理》、《本科新生研讨课——从微悬臂梁到微纳无人机:MEMS与微系统技术》、《智能感知工程专业导论》;
研究生课程《微纳加工及测试技术》、《仪器科学与技术前沿讲座》(硕/博)
承担的科研项目情况
1. 国家科技部,国家重点研发计划项目,2024YFE0211600,多组分智能识别微纳气体传感器关键技术合作研发,主持,项目首席科学家,在研
2.北京市教委,北京高校卓越青年科学家计划项目,JWZQ20240101028,主持,在研
3. **科技委,JCJQ重点基础研究项目,***,***器件,主持,项目首席科学家,在研
4. **科技工业局,GF基础科研计划项目,***,***加工技术,主持,在研
5. **科技委,JCJQ技术领域基金项目,***,***超表面,主持,结题
6.国家科技部,国家重点研发计划课题,2021YFB3201303,MEMS工艺与气敏材料成膜技术研究,主持,结题
7.国家自然基金委,区域创新发展联合基金集成项目课题,U21A6003,基于模块化功能单元的复杂微系统设计方法与验证,主持,在研
8.国家自然基金委,国家自然科学基金青年科学基金项目,62204020,基于准连续域束缚态超表面的太赫兹生物传感增强方法研究,主持,在研
9. 国家教育部,**预研教育部联合基金项目,***,***智能感知技术,主持,结题
10.北京市科委,北京市科技新星计划交叉课题,20230484473,基于超薄压力传感器的膝关节置换软组织压力实时测量技术研究,主持,在研
11.北京市科委,北京市科技新星计划项目,2021B00001773,面向新型冠状病毒诊断的MEMS超材料呼气传感技术研究,主持,结题
12.北京市教委,北京市教委科技计划项目,KM202211232016,MEMS可变形电磁超材料生物传感检测机理研究,主持,结题
13.博士后基金会,中国博士后科学基金第13批特别资助项目,2020T30025,新型无创糖尿病智能诊断微系统技术研究,主持,结题
14.博士后基金会,中国博士后科学基金第67批面上资助项目,2020M670037,基于MEMS呼气成分检测传感器的糖尿病诊断智能微系统研究,主持,结题
15.**科技委,GF创新特区重点项目课题,***,微型硅基***,骨干(3/12),结题
论文目录
主要期刊论文:
1.On Demand Copper Electrochemical Deposition on Laser Induced Graphene for Flexible Electronics. Small,2024. Accept,DOI: 10.1002/smll.202408943(共同通讯作者)
2.3D Thermoshrink Micropillar Array Metasurface Biochemical Sensor at the Terahertz Frequency. Optics Express, 2024, 32(26), 47248-47258.(通讯作者)
3.Non-Invasive In-Situ Monitoring of Deep Etching Processes Using Terahertz Metasurfaces. Optics Express, 2024, 32(26), 46999-47010.(共同通讯作者)
4.Nonlinear metamaterials enhanced surface coil array for parallel magnetic resonance imaging. Nature Communications, 2024, 15:7949. (共同通讯作者)
5.High-Performance Sensing Platform Based on Morphology/Lattice Collaborative Control of Femtosecond-Laser-Induced MXene-Composited Graphene. Advanced Science, 2024, 2404889. (通讯作者)
6.Visible Light-Activated Room Temperature NO2 Gas Sensing Based on the In2O3@ZnO Heterostructure with a Hollow Microtube Structure. ACS Sensors, 2024, 9, 3741-3753. (通讯作者)
7.Investigation of sorptive interactions between volatile organic compounds and supramolecules at dynamic oscillation using bulk acoustic wave resonator virtual sensor arrays. Microsystems & Nanoengineering, 2024, 10: 99. (通讯作者)
8.Fabrication and modulation of flexible electromagnetic metamaterials. Microsystems & Nanoengineering, 2024. Accept, DOI: 10.1038/s41378-024-00806-1 (通讯作者)
9.In Situ Laser-Induced 3D Porous Graphene within Transparent Polymers for Encapsulation-Free and Tunable Ultrabroadband Terahertz Absorption. ACS applied materials & interfaces, 2024, 16, 26557-26567. (通讯作者)
10.In-situ growth of ZnO@ZnWO4 heterojunction with flower-like structure by chemical vapor deposition for H2S gas sensor. Applied Surface Science, 2025, 679, 161149. (通讯作者)
11.Micro-spherical SnO2/Zn2SnO4 heterojunction for sensitive and selective detection of hydrogen sulfide. Applied Surface Science, 2024, 669, 160518. (通讯作者)
12.Directly writing multicomponent plasmonic nanocavities based on fs-laser induced photo-mechanical spallation. Optics and Laser Technology, 2025, 181, 111752. (通讯作者)
13.Enhanced Sugar Sensing via a Fano Resonance Terahertz Metasurface with a Metallic Cross-shaped Hole Array. IEEE Sensor Journal, 2024, 24, 21. (通讯作者)
14.Non-Hermitian Broadside Coupled Split Ring Resonators with Directional Sensitivity. Advanced Optical Material, 2024, 2302420.(共同通讯作者)
15.A Miniaturized Wireless Micropump Enabled by Confined Acoustic Streaming. Research, 2024, 7, 0314.(共同通讯作者)
16.High-Efficiency Dynamic Terahertz Deflector Utilizing a Mechanically Tunable Metasurface. Research, 2023, 6, 0274.(共同通讯作者)
17.A magnetic control enrichment technique combined with terahertz metamaterial biosensor for detecting SARS-CoV-2 spike protein. Biosensors and Bioelectronics, 2024, 243, 115763. (通讯作者)
18.Detection of propionaldehyde with mixed potential type sensor based on Gd2Zr2O7 solid electrolyte coupling SmSbO4 sensing electrode. Applied Surface Science, 2023, 640, 158406. (通讯作者)
19.Research progress of electronic nose technology in disease exhaled breath analysis. Microsystems & Nanoengineering, 2023, 9, 129. (通讯作者)
20.Enhanced corrosion resistance of Mg and Mg alloys with fs-laser printed hydrophobic and periodically micro rippled surface for armor application. Applied Surface Science,2023,639, 158156. (通讯作者)
21.Two-Dimensional Transition Metal Dichalcogenide Tunnel Field Effect Transistors for Biosensing Applications, ACS applied materials & interfaces, 2023, 15(19), 23583-23592. (共同通讯作者)
22.Laser fabrication of graphene-based flexible electronics. Advanced Materials, 2020, 32, 1901981.(第一作者/共同通讯作者)
23.Fabrication of flexible room-temperature NO2 sensors by direct laser writing of In2O3 and graphene oxide composites. Sensors and Actuators B: Chemical, 2018, 277, 114-120.(第一作者)
24.Mixed-potential-type NO2 sensors based on stabilized zirconia and CeO2-B2O3(B = Fe, Cr) binary nanocomposites sensing electrodes. Sensors and Actuators B: Chemical, 2018, 266, 793-804.(第一作者)
25.High performance mixed-potential-type Zirconia-based NO2 sensor with self-organizing surface structures fabricated by low energy ion beam etching. Sensors and Actuators B: Chemical, 2018, 263, 445-451.(第一作者)
主要会议论文:
1.An Ultrasensitive Micro Ion Selective Arrays For Multiplex Heavy Metal Ions Detection. The 19th International Conference on Miniaturized Systems for Chemistry and Life Sciences (μTAS), Gyeonju, Korea, October 25-29, 2015.(第一作者)
2.A Slot Antenna Terahertz Sensor for Uric Acid Detection. The 26th International Conference on Miniaturized Systems for Chemistry and Life Sciences (µTAS), Hangzhou, China, October 23-27, 2022. (通讯作者)
3.Fano Resonance-Based Terahertz Metamaterial Uric Acid Sensor with Asymmetric Design. The 21st IEEE Conference on Sensors (IEEE Sensors Council), Dallas, TX, USA, October 30 - November 2, 2022.(通讯作者)
4.Dual-Band Tunable Terahertz Electromagnetic Stealth Metamaterial Based on Patterned Graphene. The 21st IEEE Conference on Sensors (IEEE Sensors Council), Dallas, TX, USA, October 30 - November 2, 2022.(通讯作者)
5.A Terahertz Metamaterial Absorber-Based Biosensor for Ascorbic Acid. The 22nd IEEE Conference on Sensors (IEEE Sensors Council), Vienna, Austria, October 29 - November 1, 2023.(通讯作者)
6.Design of an Ultra Low-Power Glass-Based Micro-Hotplate with Thermal Isolation Structure. The 23nd IEEE Conference on Sensors (IEEE Sensors Council), Kobe, Japan, October 20-23, 2024. (通讯作者)
7.Liquid Metal Flexible Pressure Sensor Based on Femtosecond Laser Direct Writing Microchannel. The 23nd IEEE Conference on Sensors (IEEE Sensors Council), Kobe, Japan, October 20-23, 2024. (通讯作者)
8.Broadband Terahertz Metamaterial Absorber Based on Laser Reduced Graphene Oxide Films. The 23nd IEEE Conference on Sensors (IEEE Sensors Council), Kobe, Japan, October 20-23, 2024. (通讯作者)
著作目录
1.Chapter 3: Micromachining Based on Mask-Free Direct Writing: An Advanced Approach to Innovative MEMS Gas Sensors, Advanced MEMS/NEMS Fabrication and Sensors. Springer Nature. (ISBN 978-3-030-79748-5,49-74)(章节第一作者)
2.Micromachined Mixed-potential-type YSZ-based Sensors for Nitrogen Dioxide Monitoring in Automobile Exhaust. Springer Nature. (ISBN 978-981-97-3294-4) (唯一作者)
3.面向机动车污染物排放监测的混合电位式钇稳定氧化锆微型二氧化氮传感器(清华大学优秀博士学位论文丛书). 清华大学出版社. (ISBN 978-7-302-64595-5)(唯一作者)
科研成果
主要研究方向为超材料与超表面、MEMS、微系统技术。主持国家重点研发计划项目/课题、“173”计划重点项目、国家自然科学基金联合基金集成项目课题/青年基金项目等纵向项目10余项。发表SCI/EI论文50余篇,他引2000余次,入选Elsevier全球前2%科学家(2023、2024年度榜单),申请/授权发明专利40余项,牵头/参与制定国家标准、团体标准2项。
表彰和荣誉
1.2024年入选“北京高校卓越青年科学家计划”;
2.2024年入选Elsevier全球前2%科学家榜单(Nanoscience & Nanotechnology领域);
3.2023年入选“北京市优秀青年人才”;
4.2023年入选Elsevier全球前2%科学家榜单(Physical Chemistry领域);
5.2023年获“北京市高校优秀共产党员”;
6.2023年获“威廉希尔WilliamHill官方网站青年五四奖章”;
7.2022年入选“国家级青年人才计划”;
8.2022年获“中国仪器仪表学会青年科技人才奖”;
9.2022年入选“中国科协青年人才托举工程”;
10.2021年入选“北京市科技新星计划”;
11.2021年入选“威廉希尔WilliamHill官方网站勤信学者”;
12.2019年入选“北京大学博雅博士后计划”;
13.2019年获“测量控制与仪器仪表领域全国优秀博士论文”;
14.2018年获“清华大学清华大学优秀博士毕业生”、“优秀博士论文”、“学术新秀”。