伍平凡

来源:. 时间:2024-06-12

 

· 职称:教授

· 通讯地址:湖北省武汉市洪山区湖北工业大学

· 邮编:430068

· E-mail:pingfanwu-111@163.com

工作经历

1984.9-1988.7 华中师范大学,获化学理学学士学位

2000.9-2003.3 华中师范大学,获化学理学硕士学位

1988.6-2000.8 武汉化工原料公司工作

2009.9-2010.8 清华大学高级访问学者

2003.1-2006.8湖北工业大学讲师-破格副教授

2012.1-至今 湖北工业大学教授

 

社会兼职

1、中国化学会会员

2、Curr Org Synth、Langmuir、Appl Catal A、ACS Appl. Nano Mater. 等期刊审稿专家

3、湖北省科技专家库专家/科技奖励评审专家、教育部学位中心博士/硕士学位论文评审专家、江西省专家库/科技奖励评审专家、国家自然科学基金委化学一处基金委评议人

荣誉奖励

1、中国化学会会员

2、Curr Org Synth、Langmuir、Appl Catal A、ACS Appl. Nano Mater. 等期刊审稿专家

3、湖北省科技专家库专家/科技奖励评审专家、教育部学位中心博士/硕士学位论文评审专家、江西省专家库/科技奖励评审专家、国家自然科学基金委化学一处基金委评议人

 

研究方向

多酸光电和生物材料,多酸药物和多酸催化剂

 

研究课题

1、国家基金面上项目,多酸的氨基酸衍生物的合成、结构与性能研究(21271068),80万,主持人

2、湖北省自然基金面上项目,多钒酸有机酯衍生物的合成、反应化学与生物活性的研究(211CDB082),主持人

3、武汉市科技攻关项目基础应用研究,多钒酸有机杂化光电转换材料的合成与性能研究(2014010101010020),主持人

4、湖北省自然基金重点项目,多酸-光敏剂一体化光电转换材料的研究(2015CFA131),主持人

5、教育部,省级创新训练项目,S202010500097,二芳基碘鎓阳离子编织的超分子组装,2020-05至2021-12,1.0万元

6、教育部,省级创新训练项目,S202010500096,混合价态多钒酸光催化剂的合成及光解水性能研究,2020-05至2021-12,1.0万元

 

研究成果

首届“南湖学者”特聘教授,“湖北工业大学多酸材料研究所”负责人,首批校级《有机化学》精品课程负责人。主持完成多项国家及省部纵向科研项目,在国际高水平杂志Angew. Chem. Int. Ed.、Chem. Commun.、Chem. Eur. J、Int. J. Hydrogen Energy等发表SCI收录论文四十余篇。擅长把一张白纸的本科生快速带入科研大门,最早提出“本科生的科研训练应该从进大学的第一天开始”,能化不可能为可能,以大创项目作为孵化载体,实施“本-硕-博贯通”培养人才模式。近年来研究成果如下:

1. L. H. Chen, Z. J. Zhao, R. O. Diarimalala, Z. W. Chen, Y. Wang, T. Z. Zhan, Y. C. Zhao, C. H. Ma, X. Y. Wang, C. Q. Zhao, Z. C. Xiao*, K. H. Hu*, P. F. Wu*. Tris-functionalized polyoxotungstovanadate-mediated antitumor efficacy involves multiple cell death pathways. Chemistry & Biodiversity. 2024, DOI: 10.1002/cbdv.202301898. (IF:2.9)

2. C. H. Ma, S. S. Zhu, Y. C. Zhao, X. Y. Wang, T. Z. Zhan, L. H. Chen, J. N. Wang, Q. Ling, Z. C. Xiao*, X. F. Wu*, J. L. Cai*, P. F. Wu*. CoS2-MoS2 nanoflower arrays for efficient hydrogen evolution reaction in the universal pH range. Langmuir. 2024, 40 (1): 744-750. (IF:3.9)

3. J. C. Li#, X. Y. Wang#, Y. Wang, Y. C. Zhao, C. H. Ma, T. Z. Zhan, L. H. Chen, C. Q. Zhao, J. Lan, Z. C. Xiao*, P. F. Wu*. Highly-dispersed Ni, N-doped Mo2C nanoparticles prepared from organic-derived polyoxomolybdates for efficient electrocatalytic hydrogen evolution. International Journal of Hydrogen Energy. 2022, 47 (67): 28915-28923. (IF:7.13)

4. J. C. Li#, Y. C. Zhao#, B. Huang*, Z. C. Xiao, Y. Wang, B. W. Xiao, Y. L. Zhao, P. F. Wu*. Polyoxovanadate-derived Ir/VC/C nanocomposite for electrocatalytic hydrogen production. Inorganic Chemistry Communications. 2022, 143: 109742. (IF:3.43)

5. W. Z. Chen, Y. Wang, X. Y. Wang, Z. C. Xiao*, P. F. Wu*, K. H. Hu*. Rational design and synthesis of organic-inorganic hexavanadate hybrids with p-halogenated benzoyl ligands. Journal of Molecular Structure. 2022, 1243: 131451. (IF:4.68)

6. X. Y. Wang#, C. H. Ma#, C. Q. Zhao, Y. C. Zhao, T. Z. Zhan, L. H. Chen, Z. C. Xiao*, P. F. Wu*. Synthesis and crystal structure of a new hexavanadate hybrid with alkynyl ligands. Journal of Chemical Crystallography. 2022, 53 (1): 75-80. (IF:0.58)

7. B. Huang, Y. T. Ma, Z. L. Xiong, Z. C. Xiao*, P. F. Wu*, P. Jiang*, M. H. Liang*. Polyoxometalate-derived Ir/WOx/rGO nanocomposites for enhanced electrocatalytic water splitting. Energy & Environmental Materials. 2021, 4 (4): 681-686. (IF:13.43)

8. P. F. Wu*, Y. Wang, W. Z. Cheng, X. L. Hu, B. Huang*, Z. C. Xiao*. Structural and magnetical studies of mixed-valence hexavanadate hybrids: How organic ligands affect the magnetism of polyoxometalates? Inorganic Chemistry. 2021, 60: 4347−4351. (IF:5.43)

9. P. F. Wu*, J. C. Li, Z. C. Xiao, Y. C. Zhao, Y. Wang, B. W. Xiao, B. Huang*. Ir-based electrocatalysts promoted by TME-substituted polyoxovanadate-derived vanadium carbide for efficient hydrogen evolution and oxygen evolution. Chemical Communications. 2021, 57 (80): 10395-10398. (IF:6.01)

10. P. F. Wu*, Y. Wang, B. Huang*, Z. C. Xiao*. Anderson -type polyoxometalates: from structures to functions. Nanoscale. 2021, 13(15): 7119-7133. (IF:6.7)

11. J. Lan#, Y. Wang#, B. Huang*, Z. C. Xiao*, P. F. Wu*. Application of polyoxometalates in photocatalytic degradation of organic pollutants. Nanoscale Advances. 2021, 3 (16): 4646-4658. (IF:5.59)

12. J. C. Li#, Y. C. Zhao#, B. Huang, Y. Wang, B. W. Xiao, Y. L. Zhao, Z. C. Xiao*, P. F. Wu*. Derived from diaryl-lambda (3) -iodane-containing polyoxometalate: Iodine-doped molybdenum carbide for efficient electrocatalytic hydrogen evolution. Journal of Cluster Science. 2021, 33 (5): 2375-2381. (IF:3.42)

13. B. Huang, Z. C. Xiao*, P. F. Wu*. A new scheme to prepare polyoxovanadate-polymer hybrid materials. Journal of Cluster Science. 2020, 32 (6): 1739-1745. (IF:3.42)

14. B. Huang, D. G. Ke, Z. L. Xiong, Y. Wang, K. H. Hu*, P. Jiang*, M. H. Liang*, Z. C. Xiao*, P. F. Wu*. Covalent hybrid materials between polyoxometalates and organic molecules for enhanced electrochemical properties. Journal of Materials Science. 2020, 55 (13): 5554-5570. (IF:10.31)

15. Y. Wang, X. J. Lin, B. Huang, W. Z. Chen, Z. C. Xiao*, P. F. Wu*. The crystal packing, morphology and hydrophobicity of polyoxometalate-based amphiphilic materials. CrystEngComm. 2020, 22 (14): 2434-2438. (IF:3.75)

16. Z. L. Xiong#, F. Wang#, D. G. Ke, Y. Wang, B. Huang, Z. C. Xiao*, P. F. Wu*. Diaryl-λ3 -iodane woven supramolecular architecture of polyoxometalate. Chemistryselect. 2020, 35 (23): 7056-7059. (IF:2.30)

17. M. Cheng, Z. C. Xiao, L. B. Yu, X. J. Lin, Y. Wang, P. F. Wu*. Direct syntheses of nanocages and frameworks based on anderson-type polyoxometalates via one-pot reactions. Inorganic Chemistry. 2019, 58 (18): 11988-11992. (IF:5.43)

18. H. Wang, Z. C. Xiao, Z. F. Yu, Y. T. Ma, P. F. Wu*, F. M. Xue*, W. Guo*, W. D. Lu*, X. X. Jiao*, P. Jiang*, M. H. Liang*. Facile fabrication of iron oxide/carbon/rGO superparamagnetic nanocomposites for enhanced electrochemical energy storage performance. Journal of Alloys and Compounds. 2019, 811: 152019. (IF:6.37)

19. X. K. Hu, H. Wang, B. Huang, N. Li, K. H. Hu, B. L. Wu, Z. C. Xiao*, Y. H. Wei*, P. F. Wu*. A new scheme for rational design and synthesis of polyoxovanadate hybrids with high antitumor activities. Journal of Inorganic Biochemistry. 2019, 193: 130-132. (IF:4.33)

20. Z. C. Xiao, B. Huang, S. Xu, X. K. Hu, P. F. Wu*. Polyoxovanadate-based inorganic-organic derivatives synthesized by the activation of NHS intermediate at room temperature. ChemistrySelect. 2019, 4 (5): 1742-1744. (IF:2.30)

21. B. Huang, Z. C. Xiao, Y. Wang, D. G. Ke, C. Zhu, S. M. Zhang, X. K. Hu, P. F. Wu*. Destroy the inherent symmetry of vanadium-based inorganic cluster through chiral organic ligand: Synthesis and characterization of a polyoxovanadate-derived amino acid ester hybrid. Journal of Molecular Structure. 2019, 1195: 10-16. (IF:3.84)

22. Y. Wang#, F. Wang#, D. Wang, A. N. Li, G. X. Chen, H. W. Xiong, Y. H. Wei*, P. F. Wu*, Z. C. Xiao*. Synthesis and structure studies of a new hexavanadate-glycine hybrid with high antitumor activities. Journal of Molecular Structure. 2019, 1201: 127138. (IF:3.84)

23. Z. C. Xiao, B. Huang, Y. Wang, Y. Chen, T. Y. Zhai, X. K. Hu, D. G. Ke, P. F. Wu*. Synthesis of a chiral polyoxovanadate derivative by covalently modification with a chiral amino acid ester. Journal of Cluster Science. 2019, 30 (3): 837-841. (IF:3.42)

24. Z. C. Xiao, B. Huang, X. K. Hu, P. F. Wu*. The crystal structure of bis tetrabutylammonium bis(μ3-2,2,2-tri(hydroxymethyl) ethyl-4-((3-methoxy-3-oxopropyl)amino)-4-oxobutanoato)-(μ6-oxido)-hexakis(μ2-oxido)-hexaoxidohexavanadium(V). Zeitschrift fur Kristallographie-New Crystal Structures. 2019, 234 (4): 535-537. (IF:1.76)

25. B. Huang, N. Wang, K. Yang, D. G. Ke, Y. J. Fang, X. L. Hu, B. L. Wu, Z. C. Xiao*, P. F. Wu*, Y. G. Wei*. Stepwise syntheses and supramolecular assemblies of a series of polyoxovanadate hybrids with various architectures. New Journal of Chemistry. 2018, 42 (8):5853-5858. (IF:3.92)

26. M. Cheng, N. Li, N. Wang, K. H. Hu, Xiao, Z. C. Xiao*, P. F. Wu*, Y. G. Wei*. Synthesis, structure and antitumor studies of a novel decavanadate complex with a wavelike two-dimensional network. Polyhedron. 2018, 155: 313-319. (IF:2.97)

27. D. Y. Lou, H. S. Wang, S. Liu, L. Li, W. Zhao, X. H. Chen, J. L. Wang, X. Q. Li, P. F. Wu*, J. Yang*. PdFe bimetallic catalysts for debenzylation of hexabenzylhexaazaisowurtzitane (HBIW) and tetraacetyldibenzylhexaazaisowurtzitane (TADBIW). Catalysis Communication. 2018, 109: 28-32. (IF:3.51)

28. P. F. Wu*, J. K. Chen, P. C. Yin, Z. C. Xiao*, J. Zhang*, A. Bayaguud*, Y. G. Wei*. Solvent-induced supramolecular chirality switching of bis-(trisalkoxy)-hexavanadates. Polyhedron. 2018, 52: 1344-1348. (IF:2.97)

29. Z. F. Yu, D. G. Ke, B. Huang, Y. T. Zhang, Z. H. Luo, H. Wang, Z. C. Xiao*, P. F. Wu*. Spectroscopic studies of a novel inorganic–organic hybrid based on polyoxovanadates under a wide range of wavelengths. Journal of Cluster Science. 2018, 30 (1): 5-10. (IF:3.42)

第一发明人专利:

[1] 伍平凡; 赵晨琪; 李金成; 王玉; 肖滋成; 一种Lindqvist型钨钒酸三羟甲基乙烷衍生物及其制备方法和应用, 2023-09-19, ZL 202111107104 .9

[2] 伍平凡; 王兴月; 许莉; 王玉; 肖滋成; 一种Lindqvist型杂多酸衍生物及其制备方法和应用, 2023-09-19, ZL 202111107105.3

[3] 伍平凡; 程敏; 肖滋成; 一种Anderson型多钼酸烷氧衍生物及其一锅水热制备方法, 2022-07-05, 201810437802 .7

[4] 伍平凡; 熊哲伦; 肖滋成; 一种六钒酸-L-丙氨酸甲酯衍生物及其制备方法与应用, 2020-05-22, ZL 201810399708 .7

[5] 伍平凡; 熊哲伦; 肖滋成; 一种六钒酸-L-丙氨酸叔丁酯衍生物及其制备方法与应用, 2020-04-10, ZL 201810400946 .5

[6] 伍平凡; 熊哲伦; 肖滋成; 一种六钒酸-β-丙氨酸叔丁酯衍生物及其制备方法与应用, 2020-03-10, ZL 201810400005 .1