主讲或参与讲授的本科生及研究生课程情况：

主持或参加科研项目情况：

(1) 十堰市科技局, 武当人才支持计划青年科技领军人才, WDREJH-KJLJRC20242, 新能源汽车电磁屏蔽关键防护件的设计与开发, 2024-12 至今, 15万元, 在研, 主持

(2) 湖北省科协, 湖北省青年科技人才晨光托举工程（A类）, 2024KXA04, 聚合物基复合材料的微波激发响应机制与功能设计, 2024-08 至今, 5万元, 在研, 主持

(3) 西北工业大学, 军品横向子课题, 2024127, 改性聚xxxx的微波吸收性能提升, 2024-07 至今, 50万元, 在研, 主持

(4) 湖北省科技厅, 省自然科学基金青年项目, 2024AFB460, 基于多级结构设计的空心球FeCo-聚苯胺的构筑及吸波性能研究, 2024-03 至今, 8万元, 在研, 主持

(5) 湖北汽车工业学院, 博士启动基金, BK202304, 柔性聚苯胺吸波复合薄膜的制备与性能提升, 2023-01 至 2026-12, 20万元, 在研, 主持

(1) 2023-2025全球前2%顶尖科学家“年度影响力”榜单,, 爱思唯尔, 国际学术奖

(2) 论文“Effects of filler loading and surface modification on electrical and thermal properties of epoxy/montmorillonite composite”获中国物理学会2021年度“最有影响论文奖”一等奖

(3)湖北汽车工业学院“优秀科技工作者”，2024

(4)湖北汽车工业学院“优秀教师”，2023, 2025

[1]Di Lan, Jun Wang, Yibo Wang, Xiaoming Guo, Dou Du, Chuankun Zhang, and Guanglei Wu. "Environmentally adaptable hydrogels with highly entangled interpenetrating networks for efficient electromagnetic wave absorption." Carbon (2026): 121416.

[2]Di Lan, Yue Wang, Youyong Wang, Xiufang Zhu, Haifeng Li, Xiaoming Guo, Juanna Ren, Zhanhu Guo, and Guanglei Wu. "Impact mechanisms of aggregation state regulation strategies on the microwave absorption properties of flexible polyaniline." Journal of Colloid and Interface Science 651 (2023): 494-503. 高被引+热点论文

[3]Di Lan, Haifeng Li, Min Wang, Yijin Ren, Jun Zhang, Mengqi Zhang, Lixia Ouyang, Jing Tang, and Youyong Wang. "Recent advances in construction strategies and multifunctional properties of flexible electromagnetic wave absorbing materials." Materials Research Bulletin 171 (2024): 112630. 高被引论文

[4]Di Lan, Ying Hu, Min Wang, Yue Wang, Zhenguo Gao, and Zirui Jia. "Perspective of electromagnetic wave absorbing materials with continuously tunable effective absorption frequency bands." Composites Communications (2024): 101993.高被引+热点论文

[5]Di Lan, Hongjun Zhou, and Hongjing Wu. "A polymer sponge with dual absorption of mechanical and electromagnetic energy." Journal of Colloid and Interface Science 633 (2023): 92-101. 高被引论文

[6]Di Lan, Ming Qin, Ruisheng Yang, Shuang Chen, Hongjing Wu, Yuancheng Fan, Quanhong Fu, and Fuli Zhang. "Facile synthesis of hierarchical chrysanthemum-like copper cobaltate-copper oxide composites for enhanced microwave absorption performance." Journal of Colloid and Interface Science 533 (2019): 481-491. 高被引+热点论文

[7]Di Lan, Ming Qin, Ruisheng Yang, Hongjing Wu, Zirui Jia, Kaichang Kou, Guanglei Wu, Yuancheng Fan, Quanhong Fu, and Fuli Zhang. "Synthesis, characterization and microwave transparent properties of Mn₃O₄ microspheres." Journal of Materials Science: Materials in Electronics 30 (2019): 8771-8776. 高被引论文

[8]Di Lan, Ming Qin, Jiaolong Liu, Guanglei Wu, Yi Zhang, and Hongjing Wu. "Novel binary cobalt nickel oxide hollowed-out spheres for electromagnetic absorption applications." Chemical Engineering Journal 382 (2020): 122797. 高被引+热点论文

[9]Di Lan, Zehao Zhao, Zhenguo Gao, Kaichang Kou, Guanglei Wu, and Hongjing Wu. "Porous high entropy alloys for electromagnetic wave absorption." Journal of Magnetism and Magnetic Materials 512 (2020): 167065.

[10]Di Lan, Zhenguo Gao, Zehao Zhao, Guanglei Wu, Kaichang Kou, and Hongjing Wu. "Double-shell hollow glass microspheres@ Co₂SiO₄ for lightweight and efficient electromagnetic wave absorption." Chemical Engineering Journal 408 (2021): 127313. 高被引+热点论文

[11]Di Lan, Zhenguo Gao, Zehao Zhao, Kaichang Kou, and Hongjing Wu. "Application progress of conductive conjugated polymers in electromagnetic wave absorbing composites." Composites Communications 26 (2021): 100767.

[12]Di Lan, Zehao Zhao, Zhenguo Gao, Kaichang Kou, and Hongjing Wu. "Novel magnetic silicate composite for lightweight and efficient electromagnetic wave absorption." Journal of Materials Science & Technology 92 (2021): 51-59. 高被引+热点论文

[13]Di Lan, Hongjing Wu, Fabrizio Puleo, and Leonarda F. Liotta. "Bulk and surface characterization techniques of TiO₂ and TiO₂-doped oxides." In Heterogeneous Photocatalysis, pp. 57-86. Elsevier, 2019. 专著

[14]Zirui Jia, Lifu Sun, Zhenguo Gao, and Di Lan*. "Modulating magnetic interface layer on porous carbon heterostructures for efficient microwave absorption." Nano Research 17(11) (2024): 10099-10108. 高被引+热点论文

[15]Chunhua Sun, Di Lan*, Zirui Jia, Zhenguo Gao, and Guanglei Wu*. "Kirkendall effect‐induced ternary heterointerfaces engineering for high polarization loss MOF-LDH-MXene absorbers." Small 20(48) (2024): 2405874. 高被引+热点论文

[16]Tianqi Hou, Xia Liu, Junwen Ren, Xianzhen Xu, Di Lan*, Siyuan Zhang, Hua Guo, Guangrong Wu, Zirui Jia, and Guanglei Wu. "Mesoporous hollow silica with controlled particle size for optimizing dielectric properties and coefficient of thermal expansion of polyimide packaging materials." Journal of Materials Science & Technology 235 (2025): 122-132. 高被引+热点论文

[17]Zhiqiang Guo, Junwen Ren, Xianzhen Xu, Di Lan*, Siyuan Zhang, Mukun He, Zhenguo Gao, Zirui Jia, and Guanglei Wu. "Multiphase Co/Ni metal nitrides with heterointerfaces for enhanced interfacial polarization loss in electromagnetic wave absorption." Journal of Materials Science & Technology 236 (2025): 19-27.高被引论文

[18]Xiuyun Ren, Di Lan*, Zhenguo Gao, Siyuan Zhang, Yu Zhang, Mukun He, Zirui Jia, and Guanglei Wu. "Semiconductor-based electromagnetic wave absorption materials: Review and perspectives." Journal of Materials Science & Technology 255 (2026): 236-258.

[19]Dan Wu, Di Lan*, Yingqi Li, Nifan Zhou, Qinchuan He, and Yiqun Wang*. "Heterostructure engineering of N-doped Co@carbon nanotubes toward broadband efficient electromagnetic absorption." Colloids and Surfaces A: Physicochemical and Engineering Aspects 702 (2024): 135161. 高被引+热点论文

[20]Yue Liu, Xiuyun Ren, Xinfeng Zhou, Di Lan*, Zhenguo Gao, Zirui Jia, and Guanglei Wu*. "Defect design and vacancy engineering of NiCo2Se4 spinel composite for excellent electromagnetic wave absorption." Ceramics International 50(22) (2024): 46643-46652.

[21]Tianbao Zhao, Di Lan*, Zirui Jia, Zhenguo Gao, and Guanglei Wu*. "Hierarchical porous molybdenum carbide synergic morphological engineering towards broad multi-band tunable microwave absorption." Nano Research 17(11) (2024): 9845-9856. 高被引+热点论文

[22]Shijie Zhang, Di Lan*, Jiajun Zheng, Zhiwei Zhao, Zirui Jia, and Guanglei Wu*. "Insights into polarization relaxation of electromagnetic wave absorption." Cell Reports Physical Science 5(9) (2024):102206.热点论文

[23]Zhenguo Gao, Di Lan*, Xiuyun Ren, Zirui Jia, and Guanglei Wu*. "Manipulating cellulose-based dual-network coordination for enhanced electromagnetic wave absorption in magnetic porous carbon nanocomposites." Composites Communications 48 (2024): 101922. 高被引+热点论文

[24]Renwei Feng, Di Lan*, Yingqi Li, Yongchao He, Qinchuan He, and Yiqun Wang. "Multiphase magnetic array-anchored layered Fe₃O₄/FeO/C composites with magnetic coupling effect for highly efficient microwave absorption." Ceramics International 50(24) (2024): 55461-55469. 高被引+热点论文

[25]Zhiqiang Guo, Xiaoyi Zhang, Changpeng Lv, Siyuan Zhang, Zhenguo Gao, Zirui Jia, Di Lan*, and Guanglei Wu. "Advantageous synergistic strategy to construct Ni@C/PC composites for efficient electromagnetic wave absorption." Carbon 234 (2025): 120010. 高被引+热点论文

[26]Jiahui Zhu, Lei Cheng, Siyuan Zhang, Di Lan*, Guangrong Wu, Zhenguo Gao, and Zirui Jia. "0D/1D hollow heterogeneous structure to induce self-assembly of CNTs for optimized self-anticorrosion and electromagnetic wave absorption performance." Carbon 238 (2025): 120310. 高被引+热点论文

[27]Yuhang Cheng, Xia Liu, Junwen Ren, Xianzhen Xu, Di Lan*, Guangrong Wu, Siyuan Zhang, Zhenguo Gao, Zirui Jia, and Guanglei Wu. "Component-based modulation engineering to improve magnetoelectric coupling for self-anticorrosion broadband absorption." Carbon 239 (2025): 120325. 高被引+热点论文

[28]Yuelei Pan, Lei Cheng, Di Lan*, Siyuan Zhang, Mukun He, Guangrong Wu, Zhenguo Gao, Zirui Jia, and Guanglei Wu. "Conductor-semiconductor heterointerface polarization enhancement for superior electromagnetic wave absorption." Journal of Materials Science & Technology 244 (2026): 129-141.

[29]Guangrong Wu, Yun Han, Di Lan*, Siyuan Zhang, Zhenguo Gao, Guanglei Wu, and Zirui Jia. "Polyaniline decorative MnCo2O4. 5 microspheres coupled with CoNi layered double hydroxides with remarkable electromagnetic wave absorption capacity." Carbon 244 (2025): 120631. 高被引+热点论文

[30]Zhiqiang Guo, Yuhang Cheng, Di Lan*, Siyuan Zhang, Zirui Jia, and Guanglei Wu. "Multiphase structures build heterogeneous interfaces to promote interface polarization loss electromagnetic waves." Nano Research 18(9) (2025): 94907808. 高被引+热点论文

[31]Zirui Jia, Jiajun Li, Di Lan*, Siyuan Zhang, Zhenguo Gao, Xuetao Shi, and Guanglei Wu. "Hierarchical fiber composites assembled from MOF-derived hollow polyhedral for electromagnetic wave absorption." Journal of Materials Science & Technology 256 (2026): 246-255.

[32]Jun Wang, Xiaoming Guo, Di Lan*, Yue Wang, Haibo Huang, Chuankun Zhang, Guanglei Wu, Siyuan Zhang, and Zirui Jia. "Multifunctional electromagnetic wave absorbing materials: research progress from component structural design to intelligent integration." Carbon 245 (2025): 120818.

[33]Wenxuan Zhao, Zhiqiang Guo, Di Lan*, Zirui Jia, Siyuan Zhang, and Guanglei Wu. "Construction of Multicomponent Bimetallic MOF‐Derived Transition Metal Sulfide Composites for Electromagnetic Wave Absorption." Small 21(45) (2025): e09339.

[34]Jixi Zhou, Xinmeng Huang, Di Lan*, Zirui Jia, and Guanglei Wu. "Multi-interface polarization engineering constructs one-dimensional carbon nanocages heterostructures for efficient electromagnetic wave absorption." Carbon 248 (2026): 121143.

[35]Jiajun Zheng, Lei Cheng, Shijie Zhang, Di Lan*, Xiaomiao Zhao, Xun Liu, Jiguang Zhou et al. "Harnessing decoupling and synergy between hollow structures and dual Schottky contacts for electromagnetic wave absorption." Journal of Materials Science & Technology 264 (2026): 163-172.

[36]Mengjun Han, Zirui Jia, Di Lan*, Zhenguo Gao, and Guanglei Wu. "Bimetallic Hybridization Induced Multi‐polarization Loss in Multiphase Solid Solution for Electromagnetic Wave Absorption." Chinese Journal of Chemistry (2026).

[37]Tianqi Hou, Yan Zhang, Zirui Jia, Di Lan*, and Guanglei Wu. "Heterointerface engineering of carbon nanofibers with hollow porous structure for efficient electromagnetic wave absorption." Carbon (2026): 121348.

[38]Zirui Jia, Zhiqiang Guo, Hui Ma, Di Lan*, and Guanglei Wu. "Polymetallic Cation Doping Induced Vacancy Engineering for Synergistically Enhanced Electromagnetic Wave Absorption." Carbon (2026): 121357.

[39]Shuo Zhang, Ruifeng Niu, Xiaomeng Guo, Zirui Jia, Di Lan*, and Guanglei Wu. "Designing Multiscale Integration of Hierarchical Gradient Heterostructures for Enhanced Electromagnetic Protection Performance." Carbon (2026): 121371.

[40]Yue Wang, Zhipeng Niu, Haorui Han, Jie Wang, and Di Lan*. "Observation of structural, mechanical, thermal and microwave dielectric properties of carbon black reinforced PA6/HDPE nanocomposites." Journal of Materials Science: Materials in Electronics 34, no. 28 (2023): 1948.

[41]Dan Wu, Di Lan*, Shijie Zhang, Qinchuan He, Xiping Zhou, and Yiqun Wang*. "Lightweight dielectric-magnetic synergistic necklace-shaped Co@NCP/carbon nanofiber composites for enhanced electromagnetic wave absorption." Materials Today Nano 28 (2024): 100520. 高被引论文

[42]Jiajun Zheng, Shengdi Mao, Shijie Zhang, Jie Liu, Yunyun Song, Siyuan Zhang, Yunpu Jiao, Di Lan*, and Guanglei Wu*. "Mineral-based electromagnetic wave absorbers and shields: Latest progress and perspectives." Journal of Alloys and Compounds 1022 (2025): 179884. 高被引论文

[43]Jinkun Liu, Yuelei Pan, Liyuan Yu, Zhenguo Gao, Siyuan Zhang, Di Lan*, Zirui Jia, and Guanglei Wu. "MoS2-based composites for microwave absorption mechanism-oriented structural optimization and design perspectives." Carbon 238 (2025): 120233. 高被引论文