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张富民

发布时间 2018-03-06   发布人:   浏览次数: 1898



张富民男,197411月出生,工学博士,研究员,博士/硕士生导师,已发表SCI收录论文40多篇。


联系方式:

办公室:含氟新材料幸运飞艇app15-227

话:13515791275(手机)

电子邮件:zhangfumin@zjnu.cn

通讯地址:浙江金华,浙江师范大学含氟新材料幸运飞艇app321004


主要经历:

20171  含氟新材料幸运飞艇app  科研及教学

201410—201510  美国弗吉尼亚联邦大学 访问学者 合作导师M. Samy El-Shall教授

20073—201612  浙江师范大学  物理化学幸运飞艇app科研及教学

20067—20072  扬州大学化学化工学院  教师

20019—20066  南京工业大学化学化工学院  获博士学位

19987—20018  天津液压机械集团公司  质量工程师

19949—19986  天津大学  化工学院  学士学位


主持科研项目:

1. ZrMOFs衍生Ru/ZrO2@C催化剂的制备、表征及其在生物质转化中的应用(浙江省自然科学基金项目LY18B0600062018.1.12020.12.3110万)

2. 基于MOFs材料MIL-101的贵金属-酸双功能催化剂:设计合成及催化性能(国家自然科学基金面上项目215762432016.1.12019.12.3165万)

3. 高稳定性金属有机骨架材料封装杂多酸催化剂的制备及催化性能研究(浙江省自然科学基金项目LY13B0300022013.1.12015.12.318万)

4. 相转移催化剂上H2O2氧化苯合成苯酚的研究(国家自然科学基金青年项目208060752009.1.12011.12.3120万)


研究兴趣:

1.MOFs及其衍生催化材料

2.多相催化、单原子催化

3.固体酸催化、选择性氧化及催化加氢


代表性论文:

1. S Li, J Pan, X Wu, Y Fu, Q Xiao, F Zhang*, W Zhu*. Metal–organic framework derived Pd/ZrO2@CN as a stable catalyst for the catalytic hydrogenation of 2,3,5-trimethylbenzoquinone. Applied Organometal Chemistry. (2019), e5233.

2.J. Pan, Q. Xu, G. Tu*, Y. Fu, G. Chen, F. Zhang*, W. Zhu*, Ru nanoclusters supported on HfO2@CN derived from NH2-UiO-66(Hf) as stable catalysts for the hydrogenation of levulinic acid to γ-valerolactone, Catalysis Communications, 128 (2019), 105710.

3. X. Cai, Q. Xu, G. Tu*, Y. Fu, F. Zhang*, W. Zhu*, Synergistic Catalysis of Ruthenium Nanoparticles and Polyoxometalate Integrated within Single UiO-66 Microcrystals for Boosting the Efficiency of Methyl Levulinate to γ-Valerolactone, Frontiers in Chemistry, 42 (2019), 7.

4. Y. Fu, X. Zhu, L. Huang, X. Zhang, F. Zhang, W. Zhu*, Azine-based covalent organic frameworks as metal-free visible light photocatalysts for CO2 reduction with H2O, Applied Catalysis B: Environmental, 239 (2018) 46-51.

5. Z. Lin, M. Luo, Y. Zhang, X. Wu, Y. Fu, F. Zhang*, W. Zhu*, Coupling Ru nanoparticles and sulfonic acid moieties on single MIL-101 microcrystals for upgrading methyl levulinate into γ-valerolactone, Applied Catalysis A: General, 563 (2018) 54-63.

6.X. Cai, J. Pan, G. Tu, Y. Fu, F. Zhang*, W. Zhu*, Pd/UiO-66(Hf): A highly efficient heterogeneous catalyst for the hydrogenation of 2,3,5-trimethylbenzoquinone, Catalysis Communications, 113 (2018) 23-26.

7. M. Feng, H. Li, M. Huang, J. Kang, H. Feng, Q. Su, F. Zhang*, G. Du*, Nitrogen-doped nanostructured porous carbon derived from monosodium glutamate for high-performance lithium sulfur battery, Materials Research Bulletin, 99 (2018), 429-435.

8. S. Zheng, P. Yang, F. Zhang*, D.L. Chen*, W. Zhu, Pd nanoparticles encaged within amine-functionalized metal-organic frameworks: Catalytic activity and reaction mechanism in the hydrogenation of 2, 3, 5-trimethylbenzoquinone, Chemical Engineering Journal, 328 (2017), 977-987.

9. Z. Lin, X. Cai, Y. Fu, W. Zhu, F. Zhang*, Cascade catalytic hydrogenation-cyclization of methyl levulinate to form γ-valerolactone over Ru nanoparticles supported on a sulfonic acid-functionalized UiO-66 catalyst, RSC Advances, 7 (2017) 44082-44088.

10. A.A. Ibrahim, A. Lin, F. Zhang, K.M. AbouZeid, M.S. El-Shall*, Palladium nanoparticles supported on a metal-organic framework-partially reduced graphene oxide hybrid for the catalytic hydrodeoxygenation of vanillin as a model for biofuel upgrade reactions, ChemCatChem, 9 (2017) 469-480.

11. H. Deng, L. Yao, Q. A. Huang, Q. Su, J. Zhang, F. Zhang*, G. Du*, Facile assembly of a S@carbon nanotubes/polyaniline/graphene composite for lithium-sulfur batteries, RSC Advances, 7 (2017) 9819-9825.

12. F. Zhang*, S. Zheng, Q. Xiao, Y. Zhong, W. Zhu, A. Lin, M.S. El-Shall*, Synergetic catalysis of palladium nanoparticles encaged within amine-functionalized UiO-66 in the hydrodeoxygenation of vanillin in water, Green Chemistry, 18 (2016) 2900-2908.

13. Y. Hu, S. Zheng, F. Zhang*, Fabrication of MIL-100(Fe)@SiO2@Fe3O4 core-shell microspheres as a magnetically recyclable solid acidic catalyst for the acetalization of benzaldehyde and glycol, Frontiers of Chemical Science and Engineering, 10 (2016) 534-541.

14. F. Zhang*, J. Shi, Y. Jin, Y. Fu, Y. Zhong, W. Zhu*, Facile synthesis of MIL-100 (Fe) under HF-free conditions and its application in the acetalization of aldehydes with diols, Chemical Engineering Journal, 259 (2015) 183-190.

15. F. Zhang*, Y. Jin, J. Shi, Y. Zhong, W. Zhu, M.S. El-Shall*, Polyoxometalates confined in the mesoporous cages of metal-organic framework MIL-100(Fe): Efficient heterogeneous catalysts for esterification and acetalization reactions, Chemical Engineering Journal, 269 (2015) 236-244.

16. F. Zhang*, Y. Jin, Y. Fu, Y. Zhong, W. Zhu, A.A. Ibrahim, M.S. El-Shall*, Palladium nanoparticles incorporated within sulfonic acid-functionalized MIL-101(Cr) for efficient catalytic conversion of vanillin, Journal of Materials Chemistry A, 3 (2015) 17008-17015.

17. X. Zhao, Y. Jin, F. Zhang*, Y. Zhong, W. Zhu*, Catalytic hydrogenation of 2, 3, 5-trimethylbenzoquinone over Pd nanoparticles confined in the cages of MIL-101(Cr), Chemical Engineering Journal, 239 (2014) 33-41.

18. L. Jing, F. Zhang*, Y. Zhong, W. Zhu*, Hydroxylation of benzene to phenol by H2O2 over an inorganic-organic dual modified heteropolyacid, Chinese Journal of Chemical Engineering, 22 (2014) 1220-1225.

19. Y. Jin, J. Shi, F. Zhang*, Y. Zhong, W. Zhu, Synthesis of sulfonic acid-functionalized MIL-101 for acetalization of aldehydes with diols, Journal of Molecular Catalysis A: Chemical, 383 (2014) 167-171.

20. Y. Zang, J. Shi, X. Zhao, L. Kong, F. Zhang*, Y. Zhong, Highly stable chromium (III) terephthalate metal organic framework (MIL-101) encapsulated 12-tungstophosphoric heteropolyacid as a water-tolerant solid catalyst for hydrolysis and esterification, Reaction Kinetics, Mechanisms and Catalysis, 109 (2013) 77-89.

21. Y. Zang, J. Shi, F. Zhang*, Y. Zhong, W. Zhu*, Sulfonic acid-functionalized MIL-101 as a highly recyclable catalyst for esterification, Catalysis Science & Technology, 3 (2013) 2044-2049.

22 L. Jing, J. Shi, F. Zhang*, Y. Zhong, W. Zhu*, Polyoxometalate-based amphiphilic catalysts for selective oxidation of benzyl alcohol with hydrogen peroxide under organic solvent-free conditions, Industrial & Engineering Chemistry Research, 52 (2013) 10095-10104.






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