丁春艳

科研团队

研究队伍

丁春艳

来源：工程陶瓷研究院作者：工程陶瓷研究院2019-06-04 浏览：1568

丁春艳，女，副教授，博导，新能源材料与器件系副主任，哈尔滨工业大学工学博士，主要从事特种陶瓷及新型碳材料的研究。主持/参与国家自然科学基金青年基金、面上项目、XXX配套项目、山东省重点研发计划等科研项目10项。在Advanced Materials、Journal of Material Chemistry A、Carbon、Nano Research、Chemical Engineering Journal等国际学术刊物上发表SCI学术论文30余篇，申请国家发明专利19项，已授权10项。连续获得科研标兵荣誉称号。

联系方式：bincha990@163.com; 15098118986

研究方向

锂离子电池，超级电容器

航天用特种陶瓷

先进复合材料及轻量化材料应用

电磁隐身材料

陶瓷增材制造（3D打印）

学习工作经历

2022.1至今，山东理工大学材料科学与工程学院，副教授系副主任

2018.10-2022.1，山东理工大学材料科学与工程学院，讲师

2014.09–2018.10，哈尔滨工业大学，博士材料科学与工程（温广武教授）

2012.09–2014.07，哈尔滨工业大学，硕士材料学（温广武教授）

2008.09–2012.07，聊城大学，学士材料化学（李文智教授）

主持科研项目

1. 中高温用磁性-碳/锂铝硅近净成型格栅的制备及其电磁调控机制研究；（国家级）

2. 石墨层@MnO复合锂电负极材料研制；（厅局级）

3. 高精度三维检测装备用高技术陶瓷关键结构部件的研制及应用；（省部级）

4. ***的制备2019JMRH0402 山东省重点研发计划；（省部级主要技术承担）

5. ***连接环制备关键技术研究2020JMRH0503山东省重点研发计划；（省部级主要技术承担）

6. 新工科背景下非机械专业《机械设计基础》课程虚拟仿真实验教学系统建设；（省部级）

7. 新工科背景下《资源循环科学与工程》课程体系构建；（省部级）

8. 碳包覆Si₃N₄格栅/锂钡铝硅复合陶瓷的构筑及其吸波/承载机制研究；（省部级）

9. 铝水解制氢产物回收再利用关键技术研究；横向

10. 界面调谐纳米纤维素基碳材料吸波机理研究；（厅局级）

11. 环境友好抗吸附自更新防污涂层制备及其协同防污机制的研究（参与国家基金）

12. 环境友好抗吸附自更新防污涂层制备及其协同防污机制的研究（参与国家基金）

13. 碳纤维-石墨烯多尺度增强体材料的熔盐法合成及其复合材料的界面性质研究（参与国家基金）

其它学术成果

已发表论文:

1. C. Ding*, C. Shao, G. Wen, X. Huang, et al., High Anisotropy 2D Large-size Iron-based Coral for C-band Ultra-Wide Microwave Absorption [J]. Chemical Engineering Journal, 2024, 10.1016/j.cej.2024.156973. (SCI一区)

2. C. Ding*, C. Shao, G. Wen, X. Huang, et al., Leaf Vein Micronetwork Engineering Enhanced Energy Conversion Strategy for C-band Ultralight yet Tunable Microwave Absorption [J].Rare Metals, 2024, 10.1016/j.cej.2024.156973. (SCI一区)

3. C. Ding*, G. Wen, X. Huang, et al., Heterogeneous network constructed by high aspect-ratio Kapok biomass microtube for lightweight and broadband microwave absorbent[J]. Carbon, 2022, 191:424-432. (SCI一区).

4. C. Ding*, G. Wen, X. Huang, et al., Wave-transparent LAS enabling superior bandwidth electromagnetic wave absorption of a 2D pitaya carbon slice[J]. Journal of Materials Chemistry A 10 (2022) 17603-17613. (SCI一区).

5. C. Ding*, G. Wen, X. Huang, et al.,Pomegranate micro/nano hierarchical plasma structure for superior microwave absorption[J]. Nano Research, 2022, https://doi.org/ 10.1007/s 12274-022-4522-0.

6. C. Ding*, G. Wen, X. Huang, et al., A. Wang. Sugar blower protocol enabling superior electromagnetic wave absorption of porous micro pipeline carbon materials[J]. Journal of Materials Chemistry A 9(30) (2021) 16395-16404. (SCI一区)

7. C. Ding, G. Wen, X. Huang, et al., An in-situ Blowing-etching strategy for preparation of Macro-meso-micro hierarchical porous carbon and its supercapacitive property[J]. Applied Surface Science 569 (2021) 151057. (SCI一区)

8. S. Wu ,C. Ding*, G. Wen, X. Huang, et al., High aspect-ratio sycamore biomass microtube constructed permittivity adjustable ultralight microwave absorbent[J]. Journal of Colloid and Interface Science, 2022, 622:719-727.（SCI一区）

9. S. Wu, C. Ding*, G. Wen, et al., Co-enhancement of oxidation resistance and mechanical properties of Cf/LAS composites: The effects of h-BN addition[J].Journal of the European Ceramic Society, 2020, 40: 19-27. (SCI一区).

10. S. Wu,C. Ding*, G. Wen, et al., Study of the hexagonal to monoclinic celsian phase transition induced by magnetic phase nucleation in barium aluminosilicate glass-ceramics[J].Journal of the European Ceramic Society, 2022, 42: 5762-5770. (SCI一区).

11. T. Wu, C. Ding*, G. Wen, X. Huang, et al., Checkerboard-like nickel nanoislands/defect graphene aerogel with enhanced surface plasmon resonance for superior microwave absorption[J]. Journal of Colloid and Interface Science, 2023, 629:44-52.（SCI一区）

12. C. Shao, C. Ding*, G. Wen, X. Huang, et al., Grain Boundary Capacitance Effect inIron-based Magnetic Composites for Superior C-band Microwave Absorption[J]. Chemical Engineering Journal, 2023, 466: 143162. (SCI一区)

13. C. Ding，G. Wen, et al., Hybrid Aerogel-Derived Carbon/Porous Reduced Graphene Oxide Dual-Functionalized NiO for High-Performance Lithium Storage[J]. Chemical Engineering Journal, 2018, 332:479-485. (SCI一区)

14. C. Ding，G. Wen, et al., New design on Li-ion battery anode of ternary complex metal/metal oxide@CNT: A case study of hierarchical NiCo-NiCo₂O₄ @CNTs[J]. Chemical Engineering Journal, 2018, 353:340-349. (SCI一区)

15. C. Ding,G. Wen, et al., A General Strategy toward Graphitized Carbon Coating on Iron Oxides as Advanced Anodes for Lithium-ion Batteries[J]. Nanotechnology, 2017. 28:345404. (SCI二区)

16. C. Ding, G.Wen, X. Huang, et al., Pomegranate Plasma Heterostructure Regulated 1D Biomass Derived Microtube Networks for Lightweight Broadband Microwave Absorber [J].Journal of Colloid and Interface Science, 2024, 657:54-62.（SCI一区）

17. H. Fu, C. Ding*, G.Wen, X. Huang, et al., Quadrangular cone carbon-constructed effective 3D network for a lightweight and broadband microwave absorbent [J]. Dalton Transactions, 2022. 51:16497. (SCI一区)

18. A. Guo, C. Ding*, et al., Hierarchical porous Co-CoO@NC hollow microspheres with capacity growth by reactivation of solid-electrolyte interface films[J]. Journal of Colloid and Interface Science, 2023, 640:829-838.（SCI一区）

19. C. Shao, C. Ding*, G. Wen, X. Huang, et al., Ultrahigh Concentration Surface Oxygen Vacancies in Ferrite Foams for Broadened Electromagnetic Absorption Bandwidth[J]. Materials Research Bulletin, 2023, 167, 112411. (SCI二区)

20. C. Ding, G.Wen, X. Huang, et al., A Review of 1D Carbon-based Materials Assembly Design for Lightweight Microwave Absorption [J]. Carbon, 2023, 213, 118279. (SCI一区) 2024年高被引

21. C. Ding, G.Wen, X. Huang, et al., Divalent metal-ions blowing strategy achieved 3D luffa aerogels heterostructure for lightweight broadband microwave absorber [J]. Carbon, 2024, 219, 118787. (SCI一区)

22. X. Hu, C. Ding*, G. Wen, X. Huang, et al., Truss structure construction of resource-rich carbon microtube achieved ultralight electromagnetic absorbers [J]. Materials Research Bulletin, 2024, 173, 112672. (SCI二区)

23. Shuqing Ma,C. Ding*, G. Wen, X. Huang, et al., Nano-alumina Islands Enabling Superior Capacitive Lithium-ion Storage of Pitaya Configuration [J].Carbon, 2024, 224, 119066. (SCI一区)

24. Shuqing Ma,C. Ding*, G. Wen, X. Huang, et al., Boron-manganese-nitrogen co-doped three-dimensional porous carbon realizes superior capacitive lithium-ion storage [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2024, 697, 134435. (SCI二区)

25. 郭颖君, 丁春艳, 温广武等, 锶长石微晶玻璃转晶制备SSZ-13分子筛膜[J]. 无机盐工业, 2024, 10.19964/j.issn.1006-4990.2024-0240.

26. Y. Wang, C. Ding, G.Wen, L. Zhang, et al., The study of near-net shape lithium aluminosilicate glass-ceramics by direct ink writing[J]. Journal of the European Ceramic Society, 2023.（SCI一区）

27. X. Geng, W. Xu, X. Huang, C. Ding, et al., Low‐temperature synthesis and oxidation resistance of random combination of Hf, Nb, and Ta carbides micro cuboids[J]. Journal of the American Ceramic Society, 2022, 105(7): 4942-4959.（SCI二区）

28. Z. Wang, X. Lin, J. Zhang, D. Wang, C. Ding, et al., Spherical layered Li-rich cathode material: Unraveling the role of oxygen vacancies on improving lithium-ion conductivity[J]. Journal of Power Sources, 2020, 462: 228171.（SCI一区）

29. Z. Liu, W. Zhou, S. Wang, W. Du, H. Zhang, C. Ding, et al. Facile synthesis of homogeneous core-shell Co₃O₄ mesoporous nanospheres as high-performance electrode materials for supercapacitor[J]. Journal of Alloys and Compounds, 2019, 774: 137-144.（SCI一区）

30. D. Wang, W. Zhou, R. Zhang, J. Zeng, Y. Du, S. Qi, C. Cong, C. Ding, et al., Mass production of large‐sized, nonlayered 2D nanosheets: their directed synthesis by a rapid “gel‐blowing” strategy, and applications in Li/Na storage and catalysis[J]. Advanced Materials, 2018, 30(43): 1803569.（SCI一区）

31. Y. Zhang, G. Wen, S. Fan, X. Tang, D. Wang,C. Ding. Partially reduced and nitrogen-doped graphene oxides with phenylethylamine for high-performance supercapacitors[J]. Journal of Materials Science, 2018, 53: 11715-11727.（SCI二区）

32. D. Wang, W. Zhou, R. Zhang, X. Huang, J. Zeng, Y. Mao, C. Ding, et al., MOF-derived Zn-Mn mixed oxides@carbon hollow disks with robust hierarchical structure for high-performance lithium-ion batteries[J]. Journal of Materials Chemistry A, 2018, 6(7): 2974-2983.（SCI一区）

33. W. Zhou, D. Wang, L. Zhao, C. Ding, et al., Template-free fabrication of graphene-wrapped mesoporous ZnMn₂O₄ nanorings as anode materials for lithium-ion batteries[J]. Nanotechnology, 2017, 28(24): 245401.（SCI二区）

34. D. Wang, R. Zhang, J. Li, X. Hao, C. Ding, et al., General synthesis of graphene-supported bicomponent metal monoxides as alternative high-performance Li-ion anodes to binary spinel oxides[J]. Journal of Materials Chemistry A, 2017, 5(4): 1687-1697.（SCI一区）

35. W. Zhou, K. Yu, D. Wang, J. Chu, J. Li, L. Zhao, C. Ding, et al. Hierarchically constructed NiCo₂S₄@ Ni_(1-x)Co_x(OH)₂ core/shell nanoarrays and their application in energy storage[J]. Nanotechnology, 2016, 27(23): 235402.（SCI二区）

36. W. Zhou,C. Ding, et al. Self-assembly of Fe₂O₃/reduced graphene oxide hydrogel for high Li-storage[J]. Materials Research Bulletin, 2015, 62: 19-23.（SCI二区）

37. W. Zhou, D. Kong, X. Jia, C. Ding, et al. NiCo₂O₄ nanosheet supported hierarchical core-shell arrays for high-performance supercapacitors[J]. Journal of Materials Chemistry A, 2014, 2(18): 6310-6315.（SCI一区）

已授权专利:

1. 丁春艳，温广武，一种BN辅助超强吸收超带宽吸波材料的制备方法2021

2. 丁春艳，温广武，一种自活化高比电容碳微米管电极的制备方法2022

3. 丁春艳，吴赟，一种制备薄层碳负载纳米二氧化硅材料原位发泡工艺2022

4. 丁春艳，温广武，一种批量制备薄层碳负载纳米ZnO吸波材料的低温发泡工艺2023

5. 丁春艳，温广武，一种低频高效吸波SiC多孔碳复合材料制备方法 2023

6. 丁春艳，温广武，一种宽频高效吸波大孔薄层碳材料制备方法 2023

7. 吴松松，丁春艳，王安英，一种高比表面积高导电性碳的制备方法 2023

8. 温广武，周薇薇，丁春艳，一种不锈钢无纺布基超级电容器无纺布电极材料、制备方法和应用 2015

9. 吴松松，丁春艳，一种锶长石转晶合成高硅SSZ-13分子筛的方法2024

10. 丁春艳，张丽娟，温广武，一种锂辉石微晶玻璃助烧氮化硅直写3D打印陶瓷的制备方法 2024

社会兼职

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