陈飞飞

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2024-09-05
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陈飞飞

副教授,工学博士硕士生导师

电子邮箱:ffchen@fzu.edu.cn

 

教育/工作经历

2025.7今:福州大学/扬州腾飞电缆电器材料有限公司联合培养博士后

2022.8今:福州大学,材料科学与工程学院,副教授

2019.8–2022.8:福州大学,材料科学与工程学院,讲师

2014.9–2019.6:中国科学院,上海硅酸盐研究所,工学博士

2010.9–2014.6:厦门大学,材料学院,工学学士

 

研究方向

面向水体/气体治理和固废综合利用的无机非金属环境材料

 

兼职/人才称号

1. 入选福建省级高层次人才

2. 江苏省科技副总、宝应县星链工程特聘专家

3. 福建省硅酸盐学会副秘书长

4. 国家自然科学基金通讯评议专家

5. 福州大学扬州腾飞可再生绿色环保包带材料研究中心负责人

6. Applied Catalysis BACS CatalysisChemical Engineering JournalCarbonACS Applied Materials & InterfacesApplied Surface ScienceJournal of Cleaner ProductionProgress in Organic CoatingsJournal of Environmental Chemical Engineering等期刊审稿人

 

科研项目

1企业合作横向项目(1)2025–2028,主持

2企业合作横向项目(2)2025–2028,主持

3企业合作横向项目(3)2025–2028,主持

4福建省财政厅项目,20242026,主持

5企业合作横向项目,2022–2025,主持

6福建省自然科学基金面上项目,2021–2024,主持

7国家自然科学基金青年项目,2021–2023,主持

8. 福州大学校人才基金,2019–2021,主持

9. 福建省科技重大专项20242027,骨干(第3

10福建省技术创新重点攻关及产业化项目,20232024骨干(第2

11国家科技部重点研发计划课题,2021–2025骨干(3

12. 国家自然科学基金面上项目,2021–2024骨干(2

 

奖励情况

1. 福州大学青年教师最佳一节课教学竞赛一等奖(第1),2022

2. 福州大学教师教学创新大赛副高组特等奖(第1),2022

3. 福州大学教学优秀奖一等奖(第1),2022

4. 福建省高等教育(本科)教学成果奖特等奖(第4),2025

5. 福州大学教学成果奖特等奖(第4),2024

6. 福建省高校教师教学创新大赛副高组三等奖(第4),2022

7. 福州大学教师教学创新大赛副高组特等奖(第4),2021

8. 福州大学厦航奖教金,2023

9. 福建省材料综合竞赛优秀指导老师,2022

10. 材料学院我心目中的好老师2023&2024

11. 材料学院优秀班主任2023&2024

 

承担课程

1. 本科生科研素养与创新训练、仿生材料、材料科学前沿与商业应用

2. 研究生环境功能材料

 

学生培养

1. 荣誉奖励:所指导学生获国家奖学金8人次、校优秀毕业论文5人次、优秀毕业生9人次、福州大学十佳大学生2人次

2. 学科竞赛指导学生学科竞赛获奖31项,其中国家级二等奖1项、国家级三等奖6项、省部级一等奖6项、省部级二等奖2项、省部级三等奖4

3. 科研训练:指导本科生SRTP项目8项,其中国家级大学生创新创业训练计划重点支持领域项目1项、省级大学生创新创业训练计划2

 

论著成果

发表论文63篇,他引3500余次,引用>100次论文8篇,H因子28合作出版英文专著2授权中国发明专利16件,申请国外发明专利3制定标准2项。全部论文链接:https://www.researchgate.net/profile/Feifei_Chen7/

 

1. 水处理分离膜方向

[1] Y. Zhu, D. Huang, H. Xie, Z. Liu, F. F. Chen*, Y. Yu*. Ultrathin mineral interlayers regulate interfacial polymerization of polyamide nanofiltration membranes via multiple non-covalent and coordination bonding for rapid molecular separation. Advanced Membranes 2025, 5: 100163.

[2] Yuanjia Zhao, Lishan Lin, Ang Lin, Fei-Fei Chen*, and Yan Yu*. Structure evolution of MXene membranes mediated by ultralong HAP nanowires: from 2D plains to 3D mountains for ultrafast dye/salt separation. Separation and Purification Technology 2025, 378: 134744.

[3] L. Wu, D. Shi, F. Lin, F. F. Chen*, C. Yang*, Y. Yu*. Ultrafast molecular separation through all-biomaterial membranes with a hierarchical configuration and mechanism study. Separation and Purification Technology 2025, 361: 131338.

[4] F. F. Chen*, Z. H. Dai, Y. N. Feng, Z. C. Xiong, Y. J. Zhu*, Y. Yu*. Customized cellulose fiber paper enabled by an in situ growth of ultralong hydroxyapatite nanowires. ACS Nano 2021, 15(3): 5355-5365.

[5] L. Chen, X. Wang, Y. Chen, Z. Zhuang, F. F. Chen*, Y. J. Zhu*, Y. Yu*. Recycling heavy metals from wastewater for photocatalytic CO2 reduction. Chemical Engineering Journal 2020, 402: 125922. 

 

2. CO2还原光催化方向

[1] Y. Yang, J. Jiang, Y. N. Feng, Z. Zhuang, F. F. Chen*, D. Zhang*, Y. Yu*. Manipulating d-band center and d–p orbital coupling to mitigate adsorption–desorption trade-off for efficient CO2-to-CO photoreduction over mof nanofibers. Applied Catalysis B: Environment and Energy 2025, 379: 125643.

[2] Y. Lu, Z. Zhuang, L. Li, F. F. Chen*, P. Wei,* Y. Yu*. Advancements and challenges in g-C3N4/ZnIn2S4 heterojunction photocatalysts. Journal of Materials Chemistry A 2025, 13(7): 4718-4745. (综述)

[3]  H. Liu, Y. Qiu, W. Gan, G. Zhuang, F. F. Chen*, C. Yang*, Y. Yu*. MOF-derived Co3O4/ZrO2 mesoporous octahedrons with optimized charge transfer and intermediate conversion for efficient CO2 photoreduction. Science China Materials 2024, 67(2): 588-597.

[4] F. F. Chen, L. Zhou, C. Peng#, D. Zhang, L. Li*, D. Xue*, Y. Yu*. Bimetal-organic layer-derived ultrathin lateral heterojunction with continuous semi-coherent interfaces for boosting photocatalytic CO2 reduction. Applied Catalysis B: Environmental 2023, 331: 122689.

[5] K. Chen#, X. Wang#, Q. Li, Y. N. Feng, F. F. Chen*, Y. Yu*. Spatial distribution of ZnIn2S4 nanosheets on g-C3N4 microtubes promotes photocatalytic CO2 reduction. Chemical Engineering Journal 2021, 418: 129476.

 

3. 阻燃和早期火灾预警方向

[1] K. Chen; H. Zou; C. Yuan; T. Jiang; F. F. Chen*; Y. Yu. Inorganic phase network modulates combustion behavior and electrical properties of an intumescent flame-retardant coating for reliable cable tapes. Transactions of Materials Research 2025, 1(6): 100104.

[2] C. Yuan, S. Li, H. Zou, B. Lu, C. Zhang, K. Chen, F. F. Chen*, Y. Yu*. Extraordinary roles of waste aluminum sludge in enhancing flame retardancy, smoke suppression and electric insulation of intumescent flame-retardant coating for reliable cable tapes. Polymer Degradation and Stability 2025, 242: 111659.

[3] X. He, Y. Feng, F. Xu, F. F. Chen*, Yan Yu*. Smart fire alarm systems for rapid early fire detection: advances and challenges. Chemical Engineering Journal 2022, 450: 137927. (综述)

[3] F. F. Chen, Y. J. Zhu*, F. Chen, L. Y. Dong, R. L. Yang, Z. C. Xiong*. Fire alarm wallpaper based on fire-resistant hydroxyapatite nanowire inorganic paper and graphene oxide thermosensitive sensor. ACS Nano 2018, 12(4): 3159-3171.

[4] F. Xu, Y. Wang, Y. Feng, F. F. Chen*, Y. J. Zhu*, Y. Yu*. Graphene oxide/polyethyleneimine/hydroxyapatite nanowire composite paper: unexpected mechanical robustness after fire attacking and fire alarm application. Composites Part A: Applied Science and Manufacturing 2022, 160: 107061. 

 

专著

[1] F. F. Chen; Y. J. Zhu. Highly Efficient Rapid Preparation of Inorganic Nanostructured Materials by Microwave Heating. Unconventional Green Synthesis of Inorganic Nanomaterials, Royal Society of Chemistry, 17 May 2024.

[2] Y. J. Zhu; F. F. Chen. Microwave Synthesis of Nanomaterials. Encyclopedia of Nanomaterials, Elsevier, 16 March 2023.