闫婧

基本信息

姓名：闫婧出生年月：1992年3月

学历：研究生学位：博士

职称：讲师学院：材化学院

专业：高分子材料系邮箱：yanjingyan212@163.com

教育及工作经历

2022.04-至今西安工业大学材料与化工学院讲师

2018.03-2021.12西北工业大学材料学工学博士

2019.11 -2021.11新加坡国立大学联合培养博士

研究方向

1.电磁吸波材料

2.电催化材料

3.纳米复合材料

招生信息

每年招收1-2名硕士研究生

荣誉获奖

西北工业大学优秀毕业生

科研项目

1.西安工业大学科研启动项目，2022.04至2025.04，在研，主持

2.中国博士后科学基金面上项目，2023.01至2024.12，在研，主持

3.陕西省教育厅一般专项，2023.01至2024.12，在研，主持

4.陕西省自然科学基础研究计划青年项目，2024.04-2025.12，在研，主持

5.陕西省科协人才托举计划，2025.01-2026.12，在研，主持

部分学术成果

[1]Yan J, Ye Z, Chen W,Yang X,GuoY, Huang Y. Construction of Two-dimensional Thick Sheet-like Carbide and Co Nanocrystals Heterostructure Toward Efficient Electromagnetic Wave Absorption[J].Materials Today Physics, 2024: 101434. (IF=11.5)

[2]Yan J*, Zhao X, Chen W, Liu P. Zn-MOF-derived hierarchical carbon nanorods superstructures with tunable microwave absorption properties[J]. Materials Research Bulletin, 2024, 171: 112622.（中科院2区）

[3]Yan J, Ye Z, Chen W, Liu P, Huang Y. Metal Mo and nonmetal N, S co-doped 3D flowers-like porous carbon framework for efficient electromagnetic wave absorption[J].Carbon, 2023: 118563. (IF=11.307, TOP)

[4]Yan J*, Wang Y, Liu W, Liu P*, Chen W*. Two-Dimensional Metal Organic Framework derived Nitrogen-doped Graphene-like Carbon Nanomesh toward Efficient Electromagnetic Wave Absorption[J].Journal of Colloid and Interface Science, 2023, 643: 318-327.(IF=9.965,中科院1区)

[5]Yan J*, Lu M, Chen W. Ni-MOF nanorods derived graphitic carbon encapsulated Sub‐10 nm Ni particles for boosting dielectric polarization and efficient electromagnetic wave absorption[J]. Synthetic Metals, 2023, 297: 117415.

[6]Yan J, Liu T, Liu X, Yan Y, Huang Y*. Metal-organic Framework-Based Materials for Flexible Supercapacitor Application[J].Coordination Chemistry Reviews,2022, 452: 214300.(IF=24.833,中科院1区,ESI高被引)

[7]Yan J, Huang Y*, Zhang X, Gong X, Chen C, Nie G, LiuX, Liu P. MoS₂decorated/integrated carbon fiber: Phase engineering well-regulated microwave absorber[J].Nano-Micro Letters, 2021, 13(1): 1-15.(IF=23.655,中科院1区)

[8]Yan J, Huang Y*, Yan Y, Ding L, Liu P*. High-performance electromagnetic wave absorbers based on two kinds of nickel-based MOF-derived Ni@C microspheres[J].ACS Applied Materials & Interfaces, 2019, 11(43): 40781-40792. (IF=10.383,中科院1区,ESI高被引)

[9]Yan J, Huang Y^*, Han X, Gao X, Liu P. Metal organic framework (ZIF-67)-derived hollow CoS₂/N-doped carbon nanotube composites for extraordinary electromagnetic wave absorption[J].Composites Part B: Engineering, 2019, 163: 67-76. (IF=11.322,中科院1区,ESI高被引)

[10]Yan J, Huang Y^*, Chen C, Liu X, Liu H. The 3D CoNi alloy particles embedded N-doped porous carbon foam for high-performance microwave absorber[J].Carbon, 2019, 152: 545-555. (IF=11.307,中科院1区,ESI热点,ESI高被引)

[11]Yan J, Huang Y^*, Liu X, Zhao X, Li T, Zhao Y, Liu P. Polypyrrole-Based Composite Materials for Electromagnetic Wave Absorption[J].Polymer Reviews, 2020: 1-42.(IF=14.536,中科院1区)

[12]Yan J, Huang Y^*, Yan Y,Zhao X, Liu P. The composition design of MOF-derived Co-Fe bimetallic autocatalysis carbon nanotubes with controllable electromagnetic properties[J].Composites Part A: Applied Science and Manufacturing, 2020, 139: 106107.(IF=9.463,中科院1区)

[13]Yan J, Huang Y^*, Wei C, Zhang N, Liu P. Covalently bonded polyaniline/graphene composites as high-performance electromagnetic (EM) wave absorption materials[J].Composites Part A: Applied Science and Manufacturing, 2017, 99: 121-128.(IF=9.463,中科院1区)

[14]Yan J, Huang Y^*, Zhang Z, Liu X. Novel 3D microsheets contain cobalt particles and numerous interlaced carbon nanotubes for high-performance electromagnetic wave absorption[J].Journal of Alloys and Compounds, 2019, 785: 1206-1214.(IF=6.371,中科院2区)