个人简历
大连理工大学微电子学与固体电子学博士,副教授、硕士生导师。围绕环境传感、机器学习及电磁兼容等主要研究方向,已发表SCI论文60篇,代表性成果发表在Nano-Micro Letters、Carbon、Advanced Functional Materials、Journal of Materials Science & Technology、ACS Applied Materials & Interfaces 、Inorganic Chemistry、Computers and Electronics in Agriculture、Environmental Research、Journal of Colloid and Interface Science等国际知名TOP期刊,其中第一作者/通讯作者20篇(入职川农后14篇),中科院TOP论文16篇,ESI高被引论文4篇。授权相关专利6项。入职以来,入选四川省特别人才计划、主持四川省自然科学基金面上项目、四川农业大学高层次人才引进科研启动金项目。主要研究方向为农业智能传感器,目前主要开展气体传感器、光谱传感器、电化学传感器、电磁波吸收材料的研发。
教育经历
2009.06 — 2013.07,中北大学 微电子学; 学士学位
2013.06 — 2016.07,兰州大学 集成电路工程; 硕士学位
2017.09 — 2021.09,大连理工大学 微电子学与固体电子学专业 博士学位;
工作经历
2016.06-2017.06,在新疆发改委区直机关工作,副主任科员/产业协调处。
2021.09-至今,四川农业大学beat365体育亚洲官方网站任教,农业工程学科秘书/副教授。
研究领域
半导体气敏传感器、电磁波控制材料、土壤微塑料传感器
获奖荣誉
先后获得研究生硕士、博士国家奖学金,获得兰州大学、大连理工大学优秀研究生、优秀毕业生称号,入选四川农业大学校拔尖人才。
科研项目
1.四川农业大学高层次人才科研启动金主持
2.四川省自然科学基金面上项目 主持
3.四川省特别人才计划 主持
发表论文
1. In situ construction of hierarchical core–shell Fe3O4@C nanoparticles–helical carbon nanocoil hybrid composites for highly efficient electromagnetic wave absorption[J]. Carbon, 2021, 171: 395-408. (第一作者,IF=11.3,中科院一区,ESI高被引论文).
2. Structural engineering of hierarchical aerogels comprised of multi-dimensional gradient carbon nanoarchitectures for highly efficient microwave absorption[J]. Nano-Micro Lett., 2021, 13(1): 1-20. (第一作者,IF=23.6,中科院一区,ESI高被引论文).
3. Crystallization-and morphology-tunable Fe3O4@C core–shell composites decorated on carbon nanotube skeleton with tailorable electromagnetic wave absorption behavior. Appl. Phys. Express, 2020, 13(12), 125501. (第一作者,IF=2.89,中科院三区).
4. Growth of carbon nanocoils by porous α-Fe2O3/SnO2 catalyst and its buckypaper for high efficient adsorption. Nano-Micro Lett., 2020, 12(1), 1-17. (第一作者,IF=23.6,中科院一区).
5. Catalytic anisotropy induced by multi-particles for growth of carbon nanocoils. Carbon, 2020, 166, 101-112. (第一作者,IF=11.3,中科院一区).
6. Facile synthesis of hybrid silver/porous carbon black substrate for surface-enhanced Raman scattering. Appl.Surf. Sci.,2020, 527,146948. (IF=7.3,中科院一区,共同第一作者).
7. Controlled Fabrication of Core–Shell γ-Fe2O3@ C–Reduced Graphene Oxide Composites with Tunable Interfacial Structure for Highly Efficient Microwave Absorption[J]. J. Colloid Interf. Sci. 2022, 615: 685-696 (通讯作者,IF=9.9,中科院一区).
8. Research on non-destructive testing of hotpot oil quality by Fluorescence Hyperspectral Technology combined with machine learning. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 121785.2022 (通讯作者,IF=4.8,中科院二区,ESI高被引).
9. Carbon-based Cages with Hollow Confined Structures for Efficient Microwave Absorption: State of the Art and Prospects[J]. Carbon (2023) (ESI高被引,通讯作者,TOP, IF=11.3,中科院一区).
10.Design of an efficient combined multi-point picking scheme for the tea buds[J].Frontiers in Plant Science(2023) (通讯作者,TOP, IF=6.6).
11. Real-time and Accurate Detection of Citrus under Complex Background Based on HPL-YOLOv4 Model[J].Computers and Electronics in Agriculture (2023) (通讯作者,1区TOP, IF=6.7).
12.Non-destructive Detection of Kiwifruit Soluble Solids Content based on Hyperspectral and Fluorescence Spectral Imaging[J]. Frontiers in Plant Science(2023) (通讯作者,TOP,IF=6.6).
13. Classification and Adulteration of Mengding Mountain Green Tea Varieties Based on Fluorescence Hyperspectral Image Method,Journal of Food Composition and Analysis,(2023,共同通讯作者,二区,IF=4.5)
14. Simultaneous Optimization of Conduction and Polarization Losses in CNT@NiCo Compounds for Superior Electromagnetic Wave Absorption [J]. Journal of Materials Science & Technology, 2023, Accepted. (IF= 10.319, 中科院1区TOP, 第一作者/共同通讯作者)
15. ASFL-YOLOX: An Adaptive Spatial Feature Fusion and Lightweight Detection Method for Insect Pests of the Papilionidae Family[J],2023, Frontiers in Plant Science (通讯作者,TOP, IF=6.6).
16. Study on detection method of microplastics in farmland soil based on hyperspectral imaging technology[J], Environmental Research ,2023(通讯作者,TOP, IF=8.4).
17. Optimization of Multiple Attenuation Mechanisms by Cation Substitution in Imidazolic MOFs-Derived Porous Composites for Superior Broadband Electromagnetic Wave Absorption? Journal of Materials Science & Technology, 2024. (IF= 10.9, 中科院1区TOP, 通讯作者)
18. The Surface Enhancement Effects of Tiny SnO2 Nanoparticles Modification on a-Fe2O3 for the Room-temperature NH3 Sensing,Inorganic Chemistry,2023(通讯作者,TOP, 自然指数期刊,IF=5.6)
19. Sea Urchin-Like SnS/Nitrogen-doped Carbon Nanotube Dielectric Composites for Tunable Electromagnetic Response,ACS Applied Nano Materials,(2023) (通讯作者,二区,IF=5.9)
20. Porous Carbonaceous Aerogels Composed of Multi-Scale Carbon-based Units for High-performance Microwave Absorption,ACS Applied Materials & Interfaces,(2023) (通讯作者,TOP,IF=9.5)
社会职务
担任Nano-Micro Lett、Appl. Surf. Sci.、J. INORG. ORGANOMET. P.、RSC Adv.等国际知名SCI期刊审稿人。现任Microstructure期刊编委。应邀担任2022年全国电子信息材料与器件大会组织委员。
指导学生
2023年,指导的研究生林志成和本科生熊星瑶获得硕士、本科国家奖学金。
2023年,学生队伍获得四川省大学生智能农业装备创新设计大赛二等奖。
我的团队
团队主要致力于气体传感器、光谱传感器、电化学传感器、电磁波吸收材料的研发。团队有教师3人,指导硕士研究生7人,合作指导博士生1人。