
职称:特聘教授
通信地址:湖北省武汉市洪山区南李路28号湖北工业大学轻工楼A233
邮编:430068
E-mail:wuh@hbut.edu.cn
教育及工作经历
1、教育经历
2009.09-2013.07 青岛科技大学,机电工程学院,获工学学士学位
2013.09-2016.06 青岛科技大学,机电工程学院,获工学硕士学位
2016.09-2020.06 华南理工大学,机械与汽车工程学院,获工学博士学位
2、工作经历
2020.07-2024.09 华中科技大学,化学与化工学院,博士后/助理研究员/副研究员
2021.11-2022.10 香港科技大学,化学与生物工程系,访问学者
2024.09-至 今 湖北工业大学,材料与化学工程学院,特聘教授
社会兼职
1、中国化学会会员
2、湖北省复合材料学会委员
3、《Chinese Chemical Letters》期刊青年编委
4、Nano-Micro Letters、ACS Sustainable Chemistry&Engineering、Journal of Colloid And Interface Science、Nano Research、Polymer等期刊审稿专家
研究方向
1、导热复合材料的制备与加工
2、含能材料混合工艺及装备开发
3、高分子材料成型加工新理论、新技术与新装备
研究课题
1、国防科工局重大项目课题:NH过程工艺模型构建及物料流变特性仿真模拟研究,2024-2025,主持
2、国家自然科学基金青年项目:基于梯次延展作用的高导热SiR/BN/CNT复合材料制备及其性能调控,52203038,2023-2025,主持
3、国家重点研发计划子课题:废地膜再生料拉伸流变再造包装材料技术及工程示范,2022YFC3901903,2022-2026,主持
4、湖北省杰青项目:聚合物基导热复合材料的新型加工技术及机理研究,JCZRJQ202500076,2025-2028,主持
5、湖北工业大学高层次人才项目:基于喷射作用的导热复合材料制备及性能研究,XJ2025000401,2025-2029,主持
6、聚合物成型加工工程教育部重点实验室开放课题:拉伸形变支配的固体推进剂连续混合技术及机理研究,KFKT2002,2020-2022,主持
7、湖北航天化学技术研究所合作项目:基于拉伸流变的绝热材料连续混炼工艺系统研究,2022-2024,主持
8、湖北航天化学技术研究所合作项目:固体推进剂脉动挤压混合工艺模拟研究,2025-2026,主持
9、国防科工局重大项目课题:立式混合设备及混合工艺过程的仿真技术研究,2021-2023,第二负责人
10、国防科工局重大项目课题:固体推进剂连续混合仿真技术及装备研制,2023-2025,第二负责人
11、湖北航鹏化学动力科技有限责任公司合作项目:拉伸流变固体推进剂混合及加注设备,2017-2019,项目骨干
12、武汉市重点研发计划项目:脉冲高压诱导的新能源汽车电缆连续化加工技术与装备,2023010402010608,2023-2025,项目骨干
13、国家重点研发计划课题:高性能合成树脂先进制备技术及应用示范,2016YFB0302005,2016-2021,项目骨干
14、国家自然科学基金面上项目:拉伸流场主导聚乳酸缩聚反应热质传递过程强化机制,52073107,2021-2025,项目骨干
15、中粮生物科技股份有限公司合作项目:脉冲超高压诱导PLA/PHA在线改性与熔融纺丝关键技术,2020-2023,项目骨干
16、国家自然科学基金重点项目:聚酯制件精密注塑成型及其性能调控基础研究,51435005,2015-2019,参与
17、国家自然科学基金面上项目:块状橡胶连续混炼机理和方法的研究,51175274,2012-2015,参与
18、国家重点研发计划课题:基于拉伸流变的UHMWPE高效加工与功能化关键技术,2016YFB0302302,2016-2020,参与
19、中复神鹰碳纤维股份有限公司合作项目:聚丙烯腈物理场强化熔融纺丝关键技术,2022-2025,参与
20、金发科技股份有限公司合作项目:高强度高阻隔高透气防护材料制备及功能化技术,2021-2026,参与
主要成果
1、代表性论文
[1] X. Zhao, B. Quan, X. Hu, H. Wu*, S. Liu, X. Lu*, J. Qu, Improving thermal conductivity of styrene ethylene butylene styrene/paraffin/boron nitride phase change composite via the sacrificial template method for battery thermal management, Polymer 304 (2024) 127148. (中科院二区,IF:4.1)
[2] M. Chen, Y. Hao, C. Zhu, S. Liu, S. Liu, X. Hu, X. Li, H. Wu*, X. Lu, J. Qu, Efficient exfoliation and dispersion of expanded graphite through dry ice explosion synergized shear flow field for high-thermal conductive NR/EG composite preparation in large-scale, Polymer 297 (2024) 126854. (中科院二区,IF:4.1)(ESI高被引论文)
[3] Y. Luo, J. Tao, Y. Shan, X. He, R. Peng, H. Wu*, X. Xiao*, X. Lu, A shape-stabilized phase change composite from biomass cork powder as a matrix for thermal energy storage and photothermal conversion, Journal of Energy Storage 77 (2024) 109914. (中科院二区,IF:8.9)
[4] C. Zhu, Y. Hao, H. Wu*, M. Chen, B. Quan, S. Liu, X. Hu, S. Liu, Q. Ji, X. Lu, J. Qu, Self-Assembly of Binderless MXene Aerogel for Multiple-Scenario and Responsive Phase Change Composites with Ultrahigh Thermal Energy Storage Density and Exceptional Electromagnetic Interference Shielding, Nano-Micro Letters 16(1) (2023) 57. (中科院一区,IF:31.6)(ESI热点论文、高被引论文)
[5] B. Quan, J. Wang, Y. Li, M. Sui, H. Xie, Z. Liu, H. Wu*, X. Lu, Y. Tong*, Cellulose nanofibrous/MXene aerogel encapsulated phase change composites with excellent thermal energy conversion and storage capacity, Energy, 262 (2023) 125505. (中科院一区,IF:9)(ESI高被引论文)
[6] Y. Fang, Z. Li, X. Li, H. Wu*, M. Sheng, X. Lu*, J. Qu, A novel covalent polymerized phase change composite with integrated shape memory, self-healing, electromagnetic shielding and multi-drive thermal management functions, Chemical Engineering Journal, 459 (2023) 141600. (中科院一区,IF:13.4)(ESI高被引论文)
[7] K. Zhou, Y. Sheng, W. Guo, L. Wu, H. Wu*, X. Hu, Y. Xu, Y. Li*, M. Ge, Y. Du, X. Lu*, J. Qu, Biomass porous carbon/polyethylene glycol shape-stable phase change composites for multi-source driven thermal energy conversion and storage, Advanced Composites and Hybrid Materials, 6(1) (2023) 34. (中科院一区,IF:23.2)
[8] C. Meng, X. Li, Z. Liu, M. Wang, Y. Chen*, Y. Sheng, Z. Liu, Y. Xu, L. Jia, L. Wu, X. Chen, Y. Li*, H. Wu*, X. Lu, HDPE/CNTs/CF shaped PEG-based phase change composite assisted by supercritical CO2, Polymer 271 (2023) 125828. (中科院二区,IF:4.1)
[9] Y. Yang, S. Liu, L. Jin, G. Li, B. Quan, Q. Chen*, X. Tang, X. Ji, H. Wu*, X. Lu*, J. Qu, A novel multisource energy harvester with enhanced thermal conductivity for efficient energy harvesting and superior EMI shielding, Composites Part A: Applied Science and Manufacturing 175 (2023) 107803. (中科院一区,IF:8.1)
[10] S. Liu, B. Quan, Y. Yang, H. Wu*, Q. Chen*, G. Li, Z. Tao, C. Zhu, X. Lu, J. Qu*, Shape stable phase change composites based on MXene/biomass-derived aerogel for solar–thermal energy conversion and storage, Journal of Energy Storage 67 (2023) 107592. (中科院二区,IF:8.9)
[11] M. Sheng, Y. Sheng, H. Wu*, Z. Liu, Y. Li*, Y. Xiao, X. Lu*, J. Qu, Bio-based poly (lactic acid) shaped wood-plastic phase change composites for thermal energy storage featuring favorable reprocessability and mechanical properties, Solar Energy Materials and Solar Cells, 252 (2023) 112186. (中科院二区,IF:6.3)
[12] Z. Li, Z. Liu, Y. Fang, H. Wu*, R. Niu, L. Wu, Y. Li*, M. Sui, H. Wang, X. Lu*, J. Qu, Bio-based Polylactic acid/Polyurethane blends with good recyclability and excellent shape stability for solar thermal energy storage, Solar Energy Materials and Solar Cells 258 (2023) 112406. (中科院二区,IF:6.3)
[13] H. Wu, X. Hu, X. Li, M. Sheng, X. Sheng, X. Lu*, J. Qu, Large-scale fabrication of flexible EPDM/MXene/PW phase change composites with excellent light-to-thermal conversion efficiency via water-assisted melt blending, Composites Part A: Applied Science and Manufacturing, 152 (2022) 106713. (中科院一区,IF:8.1)(ESI热点论文、高被引论文)
[14] Y. Fang, S. Liu, X. Li, X. Hu, H. Wu*, X. Lu, J. Qu, Biomass porous potatoes/MXene encapsulated PEG-based PCMs with improved photo-to-thermal conversion capability, Solar Energy Materials and Solar Cells, 237 (2022) 111559. (中科院二区,IF:6.3)(ESI高被引论文)
[15] H. Wu, X. Lu, Y. He*, J.-P. Qu*, Continuous mixing process and properties of NR/CB nanocomposites based on elongational rheology, Composites Part B: Engineering, (2022) 109705. (中科院一区,IF:12.7)
[16] C. Zhu, X. Lu, H. Wu*, X. Hu, X. Li, S. Liu, J.-P. Qu*, Constructing heat conduction path and flexible support skeleton for PEG-based phase change composites through salt template method, Composites Science and Technology, 226 (2022) 109532. (中科院一区,IF:8.3)
[17] Y. Fang, X. Li, M. Sheng, S. Gong, H. Wu*, X. Lu*, J. Qu, Nickel foam encapsulated phase change composites with outstanding electromagnetic interference shielding and thermal management capability, Composites Part A: Applied Science and Manufacturing, 160 (2022) 107056. (中科院一区,IF:8.1)
[18] H. Wu, A. Hou, X. Hu, X. Lu*, J.-P. Qu*, Effect of elongational rheology on plasticization and properties of thermoplastic starch prepared by biaxial eccentric rotor extruder, Industrial Crops and Products, 176 (2022) 114323. (中科院一区,IF:5.6)
[19] X. Lu, M. Sheng, Y. Deng, J. Lu, H. Wu*, Y. Li, Z. Liu, Y. Tong*, J.-P. Qu, Dynamically vulcanized poly (lactic acid)/polyurethane/MXene nanocomposites with balanced stiffness and toughness, Polymer, 255 (2022) 125165. (中科院二区,IF:4.1)
[20] C. Zhu, X. Lu, Y. Li, Y. Deng, J. Lu, Z. Liu, H. Wu*, Y. Tong*, J. Qu, Enhancing Toughness of PLA/ZrP Nanocomposite through Reactive Melt-Mixing by Ethylene-Methyl Acrylate-Glycidyl Methacrylate Copolymer, Polymers, 14(18)(2022) 3748. (中科院三区,IF:4.7)
[21] H. Wu, C. Zhu, X. Li, X. Hu, H. Xie, X. Lu*, J.-P. Qu*, Layer-by-Layer Assembly of Multifunctional NR/MXene/CNTs Composite Films with Exceptional Electromagnetic Interference Shielding Performances and Excellent Mechanical Properties, Macromolecular Rapid Communications, 43(18) (2022) 2200387. (中科院三区,IF:4.2)
[22] X. Hu#, H. Wu#, X. Lu*, S. Liu, J. Qu*, Improving thermal conductivity of ethylene propylene diene monomer/paraffin/expanded graphite shape-stabilized phase change materials with great thermal management potential via green steam explosion, Advanced Composites and Hybrid Materials, 4(3) (2021) 478-491. (中科院一区,IF:23.2)
[23] Y. Li#, S. Xiong#, X. Tang, H. Wu*, C. Han, M. Yi, Y. Wang*, Loose nanofiltration membrane with highly-branched SPEI/PEI assembly for dye/salt textile wastewater treatment, Journal of Environmental Chemical Engineering, 9(6) (2021) 106371. (中科院二区,IF:7.4)
[24] H. Wu, S. Lv, Y. He, J.-P. Qu*, The study of the thermomechanical degradation and mechanical properties of PET recycled by industrial-scale elongational processing, Polymer Testing, 77 (2019) 105882. (中科院二区,IF:5)
[25] H. Wu, A. Hou, J.-P. Qu*, Phase Morphology and Performance of Supertough PLA/EMA–GMA/ZrP Nanocomposites Prepared through Reactive Melt-Blending, ACS Omega, 4(21) (2019) 19046-19053. (中科院三区,IF:3.7)
2、代表性专利
[1] 吴浩,瞿金平,卢翔,一种挤出机强制喂料装置及挤出机,ZL202210157567.4,发明专利
[2] 吴浩,佟毅,卢翔,李义,瞿金平,刘颖慰,郭昱滢,一种挤出机脱挥除气装置及挤出机,ZL202210157562.1,发明专利
[3] 吴浩,王明超,卢翔,吴磊,瞿金平,陈馨,脉动正应力作用的三元乙丙绝热材料连续混炼方法及装置,申请号:2023117689222,发明专利
[4] 瞿金平,吴浩,陆志猛,一种连续挤出含能材料的装填方法及系统,ZL201911093650.4,发明专利
[5] 瞿金平,吴浩,卢翔,一种基于脉冲超高压作用的挤出机,申请号:2023116205814,发明专利
[6] 瞿金平,吴浩,卢翔,可输出自转与公转存在速比的动力减速分配器及挤出机,申请号:2023116206319,发明专利
[7] 王明超,吴浩,吴磊,卢翔,瞿金平,陈馨,一种块状三元乙丙橡胶颗粒化处理装置,申请号:202311768766X,发明专利
[8] 汪传生,吴浩,潘弋人,徐小林,王蒙,李绍明,边慧光,一种热敏性橡胶混炼方法,ZL201410648269.0,发明专利
[9] 汪传生,吴浩,吴明生,刘洁,边慧光,一种气体辅助橡胶湿法混炼制备装置,ZL201610151951.8,发明专利
[10] 汪传生,吴浩,肖培光,李绍明,沈波,一种直接雾化橡胶湿法混炼方法,ZL201610152229.6,发明专利
[11] 边慧光,吴浩,汪传生,袁浪,潘弋人,王蒙,位冬,于本会,一种行星齿轮式混炼装置,ZL201510218143.4,发明专利
[12] 边慧光,汪传生,吴浩,尹凤福,张德伟,一种预混后气体辅助橡胶湿法混炼制备装置,ZL201610151950.3,发明专利
[13] 汪传生,程耀华,吴浩,杨广义,朱琳,沈波,边慧光,一种白炭黑配方硅烷偶联反应的恒温混炼方法,ZL201410648270.3,发明专利
[14] 汪传生,潘弋人,吴浩,位冬,于本会,付平,边慧光,一种串联式橡胶连续混炼方法,ZL201410648268.6,发明专利
[15] 瞿金平,卢翔,吴浩,一种多相生物高分子复合材料连续共混制备方法及设备,申请号:2023116206840,发明专利
[16] 瞿金平,陆志猛,吴浩,卢翔,范军翔,一种脉冲正应力作用的固体推进剂连续混合方法及装置,申请号:2023116207824,发明专利
荣获奖励
1、山东省优秀毕业生,2013年
2、湖北省杰青,2025年