个人简介

主要从事金属纳米材料控制合成与性能的相关研究，主持完成了国家自然基金、天津市科委基金项目和横向合作项目等多项科研任务；以第一作者和通讯作者发表SCI收录论文40余篇，入选天津市"131"创新型人才二层次。荣获天津市高校优秀青年教师、天津市高校课程思政教学名师、天津市大学生挑战杯竞赛优秀指导教师、中国分析测试协会科学技术二等奖（主持）和天津市教学成果二等奖（参与）。作为课程负责人，本科生《纳米材料学》先后被评为天津市高校课程思政示范课、天津市高校一流课程和天津市“人工智能+高等教育”典型案例，研究生《纳米材料与纳米结构》被评为天津市工程专业学位优秀课程。参与天津市教研课题1项和天津市教学团队1项，发表教研文章3篇，参编教材1部。指导学生完成多项国家级和市级大学生创新创业项目并入选国家创新创业年会，荣获中国大学生节能减排社会实践与科技竞赛三等奖、天津市大学生挑战杯一等奖和二等奖。担任天津市科技协会青年会员，并受邀担任Chemical Engineering Journal，Journal of Colloid and Interface Science，International Journal of Hydrogen Energy等期刊的审稿人。

个人简历

1998.09-2002.07  河南师范大学物理学教育专业学习，获学士学位

2002.09-2003.06  中国科技大学物理系学习

2003.07-2007.07  中国科学院固体物理研究所材料物理与化学专业学习，获博士学位

2017.09-2018.09  美国德州大学达拉斯分校纳米技术中心访问学者

2007.07-2011.10  天津理工大学 讲师

2011.11-2020.11  天津理工大学 副教授

2020.12-至  今  天津理工大学 教授

科研成果

1）组分比例可调的合金纳米线在限域空间内熔化再结晶行为，天津市自然科学基金面上项目；

2)熔化状态下一维金属纳米材料电输运特性的研究，国家自然科学基金青年基金项目；

3）纳米结构发射体研制，横向合作项目；

4）锰基莫来石与碳材料复合的控制合成与表征，横向合作项目；

5）高熵合金纳米材料的控制合成，横向合作项目；

代表性论文

1) Y. F. Zhang, X. W. Wang*, Z. Y. Zheng, W. H. Zhang, X. Li, J. Q. Niu, The interfacial synergy of hierarchical FeCoNiP@FeNi-LDH heterojunction for efficient alkaline water splitting, Journal of Colloid and Interface Science, 673 (2024) 797-806.

2) Z. Y. Zheng, X. W. Wang*, Y. F. Zhang, J. Li, X. Li, W. H. Zhang, X. Li, Tip effect-assisted modulation of interfacial charge in FeCoNi LDH/Ni3S2 Mott-Schottky heterojunction for efficient oxygen evolution reaction, Molecular Catalysis, 564 (2024) 114335.

3) W. X. He, X. W. Wang*, C. Yu, W. H. Zhang, J. Li, X. Li, The optimized oxygen evolution reaction of FeCoNi layer double hydroxide by the adhesion of Ag nanoparticles, International Journal of Hydrogen Energy, 61(2024) 603-610.

4）C. Yu, X. W. Wang*, W. X. He, Z. Y. Zheng, X. J. Dang, Y. F. Zhang, Electrodeposition of FeCoNiCuMn high-entropy alloy nanoparticles as efficient bifunctional electrolytic water catalyst, Surfaces and Interfaces, 46 (2024) 104084.

5) Y. Chen, X. W. Wang*, W. He, C. Yu, X. Dang, Z. Zheng, Y. Zhang, Fe and Cr doped porous Co3O4@C nanosheets with abundant oxygen vacancies for highly efficient oxygen evolution reaction, Molecular Catalysis, 548 (2023) 113410.

6) W. He, L. Jin, X. Ma, X. Li, J. Li, X. W. Wang*, Wettability contrast on the surface of CuO nanostructures for highly efficient fog harvesting, Current Applied Physics, 53 (2023) 1126-131.

7) W. Hen, X. W. Wang*, Z. Chu, X. Ma, C. Sun, J. Zhang, CuO nanomesh hierarchical structure for directional water droplet transport and efficient fog collection, Colloids and Surfaces A, 6657 (2023) 130512.

8) X. Wen, X. W. Wang*, K. Ma, Y. Chen, C. Yu, Z. Yuan, Optimized oxygen reduction reaction of Sm0.7La0.3Mn2O5 nanorods by lanthanum dopant for zinc-air batteries, ACS Applied Energy Materials, 5 (2022) 7356-7363.

9) Y. L. Zhang, X. W. Wang*, K. Ma, X. R. Wen, Z. Q. He, Z. H. Yuan, Efficiently catalyzed sea urchin-like mixed phase SmMn2O5/MnO2 for oxygen reduction reaction in zinc-air battery, Materials Research Bulletin, 149 (2022) 111744.

10) X. W. Wang*, T. Chen, Y. L. Zhang, K. Ma, X. R. Wen, C. Sun, Z. H. Yuan, Catalytic oxidation of NO over SmMn2O5 nanostructures derived from different Mn precursors, Molecular Catalysis, 516 (2021) 111983.

11) L. L. Jin, X. W. Wang*, C. Sun, J. Y. Zhang, W. X. He, Z. H. Yuan, Sisal-inspired design of ZnO nanoneedle multistage structure for efficient fog harvesting, Surfaces and Interfaces, 25 (2021) 101150.

12) K. Ma*, B. Qin, X. W. Wang*, Understanding the Impedance of CNOs-Graphene hybrid electrode through both experimental and simulated electrochemical impedance spectrum, Electrochimica Acta, 371 (2021) 137839.

13) T. Chen, X. W. Wang*, S. J. Ma, X. Ma, Y. L. Zhang, L. Q. Luo, Z. H. Yuan, Carbon nanomaterial-SmMn2O5 nanocrystal composites with highly efficient catalytic oxidation of NO, Solid State Sciences, 108 (2020) 106425.

14) L. Q. Luo, X. W. Wang*, X. Ma, Y. L. Zhang, L. L. Jin, Z. H. Yuan, Zinc aluminate nanotubes fabrication based on heating-induced volatilization and Kirkendall effect in nanopores of anodic aluminum oxide template, Vacuum, 172 (2020) 109051.

15) S. J. Ma, X. W. Wang*, T. Chen, Z. H. Yuan, Effect of surface morphology on catalytic activity for NO oxidation of SmMn2O5 nanocrystals, Chemical Engineering Journal, 354 (2018) 191-196.