姓名：潘诚  

学历：工学博士

职称：讲师，硕士生导师

研究领域：生物质资源利用

办公电话：

电子邮件：ch_pan1018@whpu.edu.cn

（一）教育和工作经历

2006年9月~2010年6月，湖北工业大学，轻化工程，本科

2010年9月~2013年6月，湖北工业大学，制浆造纸工程，硕士

2013年9月~2017年3月，天津科技大学，制浆造纸工程，博士

2018年7月~2022年10月，湖北工业大学，材料与化学工程学院，专任教师

2022年11月~至今，武汉轻工大学，化学与环境工程学院，专任教师

（二）教学课程

1. 资源化工工艺（本科生）  

2. 工业催化技术（研究生）

（三）主要研究方向

1. 生物质资源高值化利用

2. 储能材料开发及应用

3. 特殊效应材料开发及应用

（四）科研项目

[1] 湖北省教育厅科学技术研究计划重点项目：功能粒子修饰碳基载体功能化设计及其构效关系研究，2024-2026，负责人

[2] 产学研合作项目，生物质基自组装多响应薄膜的制备及其应用开发，2025，负责人

[3] 产学研合作项目，多驱动矿物质基复合相变材料制备及应用开发，2025，负责人

[4] 产学研合作项目，一种用于废水处理的一体化添加系统开发，2024，负责人

[5] 产学研合作项目，用于吸附废水有机污染物的生物质基多孔材料制备及工艺开发，2023，负责人

（五）奖励及荣誉

[1] 湖北省科学技术进步奖二等奖，木质纤维组分梯度分离制木糖及增值利用关键技术与产业化(2025年，排3)

（六）代表性论文

[1] Yingao Jiao, Bangyi Wu, Guanzhi Wang, Yupeng Li, Cheng Pan*, Yifei Long, Qunpeng Cheng, Haitao Yang, Guozhi Fan, Zinc/iron/cobalt modified functionalized biochar composites for multi-source energy conversion and building temperature management, Journal of Energy Storage, 2026, 141, 119243

[2] Xiaofei Li, Yinao Jiao, Yupeng Li, Cheng Pan*, Guozhi Fan, Yifei Long, Qunpeng Cheng, Haitao Yang, Dual-drive mica-based magnetic composite phase-change materials for photothermal and magnetothermal conversion, RSC Advances, 2025,15, 12713

[3] Yingao Jiao, Bangyi Wu, Guanzhi Wang, Cheng Pan*, Xiaofei Li, Guozhi Fan, Yifei Long, Qunpeng Cheng, Haitao Yang, Acid–Alkali Activation and Synergistic Ball-Milling Co-processing of Palm Silk for Photothermal Conversion, Arabian Journal for Science and Engineering, 2025, 50, 21065

[4] Cheng Pan*, Xiaofei Li, Yinao Jiao, Guozhi Fan, Yifei Long, Qunpeng Cheng,  Haitao Yang, Deep-eutectic-solvent modulation of self-assembled multi-responsive films based on polyvinyl alcohol/cellulose nanocrystal and grape skin red for highly sensitive food monitoring, International Journal of Biological Macromolecules, 2024, 132005.

[5] Feifan Wu, Xiaofei Li, yingao Jiao, Cheng Pan*, Guozhi Fan, Yifei Long, Haitao Yang, Multifunctional flexible composite membrane based on nanocellulose-modified expanded graphite/electrostatically spun fiber network structure for solar thermal energy conversion, Energy Reports, 2024, 4564

[6] Cheng Pan*, Xiaofei Li, Guozhi Fan, Yifei Long, Qunpeng Chen, Haitao Yang,  Feifan Wu, Modified mica-supported phase change materials for efficient solar thermal conversion and thermal energy management, Applied Thermal Engineering, 2024, 236, 121701

[7] Junxia Yuan, Xiaofei Li, Feifan Wu, Cheng Pan*, Haitao Yang, Structure and Oxygen Evolution Reaction Performance of Ni-supported Catalysts Based on Steam-exploded Poplar, Bioresources, 2024, 19, 4886-4898

[8] Cheng Pan*, Feifan Wu, Guozhi Fan, Yifei Long, Haitao Yang, Guangying Yang,  Xiaofei Li, A multifunctional flexible composite film with excellent insulation flame retardancy, thermal management and solar-thermal conversion properties based on CNF-modified mica/electrospun fibrous networks structure, Solar Energy Materials & Solar Cells, 2023, 261, 112530.

[9] Cheng Pan*, Xiaofei Li, Guozhi Fan, Haitao Yang, Yifei Long, Feifan Wu, Low-cost and highly thermally conductive silver modified mica-paraffin multifunctional composite phase change materials for photo-thermal conversion and electrical insulation, Arabian Journal of Chemistry, 2023, 16, 105310.

[10] Cheng Pan*, Guangying Yang, Haitao Yang, Lei Wang, Jungang Jiang,  Yifan Zhang, Feifan Wu, Facile fabrication of steam-exploded poplar loaded with non-metal-doped Ni-Fe nanoparticles: Catalytic activities in 4-nitrophenol reduction and electrocatalytic reaction, Arabian Journal of Chemistry, 2022, 15, 103944.

[11] Cheng Pan*, Guangying Yang, Haitao Yang, Feifan Wu, Lei Wang, Jungang Jiang, Yifan Zhang, Junxia Yuan, Facile Construction of Iron/Nickel Phosphide Nanocrystals Anchored on N-B-Doped Carbon-Based Composites with Advanced Catalytic Capacity for 4-Nitrophenol and Methylene Blue, International Journal of Molecular Sciences, 2022, 23(15), 8408