王雪飞

发布时间:2019.01.18 10:03

    

  姓名:王雪飞     

  性别:男  

  出生年月:1978年9月 

  学位:博士     

  职称:教授、博士生导师(化学材料科学与工程)       

  Emailxuefei@whut.edu.cn    

教育经历


先后获永利集团88304官网材料科学工程学士学位(2001.7)、永利集团88304官网应用化学硕士学位(2004.6,导师:魏明坤教授)、和永利集团88304官网材料加工博士学位(2011.6,导师:张联盟教授(院士))

工作简历

2004.07 2006.11   永利集团88304官网 理学院化学系            助教

2006.11 – 2011.10   永利集团88304官网 理学院化学系            讲师

2011.11   –2014.06    永利集团88304官网 理学院化学系           副教授

2013.7-2015.01     国家公派美国加州大学河滨分校(Yin Yadong课题组)       访问学者

2014.06 –2017.09      永利集团88304官网 永利集团88304官网             副教授

2017.10 – 至今        永利集团88304官网 永利集团88304官网              教授

研究领域

光催化

教学、科研概况

主要承担物理化学、物理化学实验、高等热力学(硕士研究生)、Photocatalytic   Materials(博士留学生)等本科和研究生教学工作。在教学工作中,坚守与学生同学习、同进步的原则,善于以认知的客观规律引导学生掌握知识,让学生在潜移默化中增强发现问题、分析问题和解决问题的能力。努力探索新的教学方法、积极参与教学改革创新。在教书育人中先后获得校师德先进个人校优秀班主任永利集团88304官网青年教师讲课比赛二等奖等荣誉称号与奖项。

十多年来一直在从事光催化材料的研制及对污水中有机污染物降解、光催化制氢、人工光合双氧水和高附加值化学品等研究工作;已熟练掌握光催化材料的制备及修饰方法、水环境中有机污染物检测方法和降解过程、光催化制氢过程以及人工光合双氧水和高附加值化学品等的评价方法。在光催化材料、光催化降解有机污染物、光催化制氢、人工光合双氧水和高附加值化学品等方面的研究中已取得了一些创新性成果。近些年来在国内外重要学术刊物上发表SCI论文80多篇,包括如Appl. Catal. BJ. Mater. Chem. AACS Appl. Mater.   InterfacesChem. Eur. J.J. Phys. Chem.等国际重要期刊,其中多篇论文他人引用超过50次和被评为ESI高引频论文。申请国家发明专利十多项,其中两项专利实现科技成果转化。先后主持和参与多项省部级以上项目(包括863和国家自然基金等),H个人引文指数为41,现担任Appl. Catal. BACS Appl. Mater. InterfacesJ. Mater. Chem. AJ. Phys. Chem. C等多种国际国内期刊的审稿人。

近年主持的主要科研项目

(1)主持:“高分散活性位合金助剂的选择性修饰增强BiVO4光催化产H2O2活性”(22178276),2022.01-2025.12,经费来源:国家自然科学基金,在研

(2)主持:“高活性暴露面银基光催化材料的可控制备及稳定性增强研究51672203),2017.01-2020.12,经费来源:国家自然科学基金,结题

(3)主持:可磁分离TiO2基光催化剂对酞酸酯降解及制氢耦合体系的研究51208396),2013.01-2015.12,经费来源:国家自然科学基金,结题

(4)主持:贵金属修饰空心结构纳米复合光催化剂对PAEs降解及协同制氢的研究(2013-1a-036)”2013.01-2014.10,中央高校专项基金,结题

(5)参加(骨干):基于量子点染料共敏化分等级多孔TiO2 薄膜的光电性能研究(61274129)”, 2013.012016.12, 经费来源:国家自然科学基金(面上项目),结题

(6)参加(骨干):室内空气净化技术与产品研制2012AA062701),2012.01-2015.12,经费来源:国家科技部(863计划),结题

近年代表性论文

1)Wang, K.; Wang, M.; Yu, J.; Liao, D.; Shi, H.; Wang, X.*;   Yu, H.*, BiVO4 Microparticles Decorated with Cu@Au Core-Shell Nanostructures   for Photocatalytic H2O2 Production. ACS Applied Nano Materials 2021,   4 (12), 13158-13166.

2)Zhong, W.; Wu, X.; Liu, Y.; Wang, X.*; Fan, J.; Yu, H.*,   Simultaneous realization of sulfur-rich surface and amorphous nanocluster of   NiS1+x cocatalyst for efficient photocatalytic H2 evolution. Appl. Catal.   B: Environ. 2021, 280, 119455.

3)Yu, H.*; Ma, H.; Wu, X.; Wang, X.*; Fan, J.; Yu, J.,   One-Step Realization of Crystallization and Cyano-Group Generation for g-C3N4   Photocatalysts with Improved H2 Production. Solar RRL 2021, 5   (2), 2000372.

4)Wang, M.; Cheng, J.; Wang, X.*; Hong, X.; Fan, J.; Yu,   H.*, Sulfur-mediated photodeposition synthesis of NiS cocatalyst for boosting   H2-evolution performance of g-C3N4 photocatalyst. Chin. J. Catal. 2021,   42 (1), 37-45.

5)Shi, H.; Li, Y.; Wang, X.*;   Yu, H.*; Yu, J., Selective modification of ultra-thin g-C3N4 nanosheets on   the (110) facet of Au/BiVO4 for boosting photocatalytic H2O2 production. Appl.   Catal. B: Environ. 2021, 297, 120414.

6)Fu, C.; Xu, B.; Dong, L.;   Zhai, J.; Wang, X.*; Wang, D.-Y.*, Highly efficient BiVO4 single-crystal   nanosheets with dual modification: phosphorus doping and selective Ag   modification. Nanotechnol. 2021, 32 (32), 325701.

7)Li, Y.; Liao, D.; Li, T.;   Zhong, W.; Wang, X.*; Hong, X.; Yu, H.*, Plasmonic Z-scheme Pt-Au/BiVO4   photocatalyst: Synergistic effect of crystal-facet engineering and selective   loading of Pt-Au cocatalyst for improved photocatalytic performance. J.   Colloid Interface Sci. 2020, 570, 232-241.

8)Zhong, W.; Huang, Y.; Wang,   X.; Fan, J.; Yu, H.*, Colloidal CdS and CdZnS nanocrystal photocatalysts with   massive S2--adsorption: one-step facile synthesis and highly efficient   H-2-evolution performance. Chem. Commun. 2020, 56 (65),   9316-9319.

9)Yu, C.; Wang, P.*; Wang, X.;   Chen, F.; Yu, H.*, Silver-melamine nanowire-assisted synthesis of net-like   AgCl-Ag/g-C3N4 for highly efficient photocatalytic degradation ability. J.   Alloys Compd. 2019, 806, 263-271.

10)Wang, X.; Yu, J.; Fu, C.;   Li, T.; Yu, H., Self-templated formation of AgCl/TiO2 hollow octahedra for   improved visible-light photocatalytic activity. Appl. Surf. Sci. 2019,   494, 740-748.

11)Wu, X.; Wang, X.; Wang, F.;   Yu, H.*, Soluble g-C3N4 nanosheets: Facile synthesis and application in   photocatalytic hydrogen evolution. Applied Catalysis B-Environmental 2019,   247, 70-77.

12)Y. Xu, Y. Li, P. Wang, X.   Wang* and H. Yu*, Highly efficient dual cocatalyst-modified TiO2   photocatalyst: RGO as electron-transfer mediator and MoSx as H-2-evolution   active site. Appl. Surf. Sci., 2018,   430, 176-183.

13)Wang, X., Liao, D., Yu, H.*   & Yu, J. Highly efficient BiVO4 single-crystal photocatalyst   with selective Ag2O-Ag modification: orientation transport, rapid   interfacial transfer and catalytic reaction. Dalton Trans., 2018, 47, 6370-6377.

14)Yu, H.*; Liu, W.; Wang, X.;   Wang, F., Promoting the interfacial H-2-evolution reaction of metallic Ag by   Ag2S cocatalyst: A case study of TiO2/Ag-Ag2S photocatalyst. Applied   Catalysis B-Environmental 2018, 225, 415-423.

15)Liu, W.; Wang, X.; Yu, H.*;   Yu, J., Direct Photoinduced Synthesis of Amorphous CoMoSx Cocatalyst and Its   Improved Photocatalytic H-2-Evolution Activity of CdS. Acs Sustainable   Chemistry & Engineering 2018, 6 (9), 12436-12445.

16)Wu, X.; Chen, F.; Wang, X.;   Yu, H.*, In situ one-step hydrothermal synthesis of oxygen-containing   groups-modified g-C3N4 for the improved photocatalytic H-2-evolution   performance. Appl. Surf. Sci. 2018, 427, 645-653.

17)Yu, H.*; Cao, C.; Wang, X.; Yu, J., Ag-Modified BiOCl   Single-Crystal Nanosheets: Dependence of Photocatalytic Performance on the   Region-Selective Deposition of Ag Nanoparticles. J. Phys. Chem. C 2017,   121 (24), 13191-13201.

18)Wang, X.; Cheng, J.; Yu, H.*; Yu, J., A facile   hydrothermal synthesis of carbon dots modified g-C3N4 for enhanced   photocatalytic H2-evolution performance. Dalton Trans. 2017, 46   (19), 6417-6424.

19)Chen, F.; Yang, H.; Wang, X.*; Yu, H.*, Facile   synthesis and enhanced photocatalytic H-2-evolution performance of   NiS2-modified g-C3N4 photocatalysts. Chin. J. Catal. 2017, 38   (2), 296-304.

20)Wang, P.; Xu, S.; Xia, Y.; Wang, X.; Yu, H.*; Yu, J.,   Synergistic effect of CoPi-hole and Cu(ii)-electron cocatalysts for enhanced   photocatalytic activity and photoinduced stability of Ag3PO4. Phys. Chem.   Chem. Phys. 2017, 19 (16), 10309-10316.

21)Wang,   Xuefei, Li, Tianyi, Yu, Rui, Yu, Huogen*, Yu, Jiaguo, Highly   efficient TiO2 single-crystal photocatalyst with spatially   separated Ag and F- bi-cocatalysts: orientation transfer of photogenerated   charges and their rapid interfacial reaction, J. Mater. Chem. A, 2016, 4 (22): 8682-8689.

22)Sun, Q.; Wang, P.; Yu, H.*; Wang, Xuefei*,   In situ hydrothermal synthesis and enhanced photocatalytic H2-evolution   performance of suspended rGO/g-C3N4 photocatalysts. J. Mol. Catal. A:   Chem. 2016, 424, 369-376.

23)Wang, X.; Lu, Q.; Wang, X.; Joo, J.; Dahl, M.; Liu, B.;   Gao, C.; Yin, Y.*, Photocatalytic Surface-Initiated Polymerization on TiO2   toward Well-Defined Composite Nanostructures. ACS Appl. Mater. Interfaces 2016,   8 (1), 538-546.

申报或获得专利:

1) 一种Fe3O4@C@TiO2磁分离光催化剂的简易制备方法,ZL201710154025.0,王雪飞;廖丹;田都;赵文杰;曹雪竹;余火根

2) Pt/Au-BiVO4Z-型可见光纳米片光催化剂的制备方法,ZL201611051029.8,余火根;王雪飞;李天毅;钟威

3) 高效Ag/AgCl空心八面体可见光光催化剂的制备方法,ZL2016****5822.1,余火根;李天毅;付灿;田都;王雪飞

4) 高效铁氟双助剂共修饰二氧化钛光催化材料的制备方法,ZL201510017406.5,余火根;王雪飞;余锐;陈峰;余家国

5) 高效稳定Fe(III)/AgBr复合可见光光催化剂的制备方法,ZL2013****1153.X,余火根;徐林利;王苹;王雪飞;余家国


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