晏宁

Supervisor of Doctorate Candidates  
Supervisor of Master's Candidates

E-Mail:

School/Department:物理科学与技术学院

Administrative Position:教授

Education Level:With Certificate of Graduation for Doctorate Study

Business Address:D201

Gender:Male

Status:Employed

Alma Mater:加拿大阿尔伯塔大学


Enrollment Information

Hits:

Department:物理学院

Specialized Courses:材料物理、凝聚态物理

Year of Admission:2023

Admission Type:Master Degree Candidate

Profile

 

晏宁,武汉大学物理科学与技术学院教授、博士生导师,材料物理系主任。本科毕业于华中科技大学材料学院,2013年于加拿大阿尔伯塔大学获得博士学位,2014年加入荷兰阿姆斯特丹大学担任助理教授并获终身教职(QS全球前50学校)。近五年主持国家人才计划青年项目、国家自然科学基金面上、欧盟地平线2020等省部级项目。发表SCI论文近百篇,出版图书章节2本。团队近三年作为唯一通讯作者已在包括Nat. Commun.(2篇), Chem. Soc. Rev. , ACS. Catal. , Chem. Mater.等SCI期刊发表文章超过20篇。同时开发出百瓦级无隔膜碱性电解槽用于氢气、氧气制备与电化学合成。2021年获得德国新能源头部企业Aquila Capital 年度唯一的Transformation Award。主要研究领域为主要研究领域为(1)电化学原位谱学解析材料动态衍变与电化学反应机理(如利用表面增强红外,微分电化学质谱);(2)电化学反应器材料与工程。


常年招收硕士和博士,也欢迎有强烈研究兴趣的本科生加入团队。我们与荷兰阿姆斯特丹大学,加拿大阿尔伯塔大学(世界排名均前100)实质合作密切。鼓励小组成员赴海外学习交流,优秀本科和硕士可推荐免试成为这些世界一流高校博士生(如有vacancy);鼓励优秀博士或硕博连读生申请CSC资助赴海外高校完成部分博士学习(通常一到两年)。


联系方式:ning.yan@whu.edu.cn


招生要求:态度决定一切,希望你有端正的工作和科研态度。

 

学习经历

2005.09-2009.07,华中科技大学 材料科学与工程 工学学士

2009.09-2013.12,加拿大阿尔伯塔大学 材料与化学工程系 材料工程博士 

                              期间2012.10-2012.12 美国宾夕法尼亚大学 (UPenn)   访问学者 

                                    2013.02-2013.03 法国巴黎国立高等化学学校(Chimie ParisTech)访问学者  

                                    

 

近期研究成果

[1]   M. J. Mekkering, P. C. M. Laan, A. Troglia, R. Bliem, A. C. Kizilkaya, G. Rothenberg, N. Yan*, “Bottom-up synthesis of platinum dual-atom catalysts on cerium oxide”, ACS Catal., 2024, 14, 9850-9859.

[2]   K. Zhao, X. Jiang, X. Wu, H. Feng, X. Wang, Y. Wan, Z. Wang, N. Yan*, “Recent development and applications of differential electrochemical mass spectrometry in emerging energy conversion and storage solutions”, Chem. Soc. Rev., 2024, 53, 6917-6959.

[3]   X. Jiang, L. Ke, K. Zhao, X. Yan, H. Wang, X. Cao, Y. Liu, L. Li, Y. Sun, Z. Wang, D. Dang, N. Yan*, “Integrating hydrogen utilization in CO2 electrolysis with reduced energy loss” Nat. Commun., 2024, 15, 1427.

[4]   P. C. M. Laan, E. O. Bobylev, N. J. Geels, G. Rothenberg, J. N. H. Reek, N. Yan*, “Non-covalent grafting of molecular complexes to solid supports by counterion confinement”, J. Phys. Chem. C, 2023, 127, 24129–24136.

[5]   P. C. M. Laan, E. O. Bobylev, F. J. de Zwart, J. A. Vleer, A. Troglia, R. Bliem, G. Rothenberg, J. N. H. Reek, N. Yan*, “Tailoring secondary coordination sphere effects in single-metal-site catalysts by surface immobilization of supramolecular cages”, Chem. Eur. J., 2023, 29, e202301901.

[6]   J. Biemolt, E. J. Meeus, F. J. de Zwart, J. de Graaf, P. C. M. Laan, B. de Bruin, T. Burdyny, G. Rothenberg, N. Yan*, “Creating conjugated C-C bonds between commercial carbon electrode and molecular catalyst for oxygen reduction to hydrogen peroxide”, ChemSusChem, 2023, 16, e202300841.

[7]   X. Wu, K. Zhao, X. Yan, X. Cao, L. Ke, Y. Zhao, L.J. Li, X. Jiang, N. Yan*, “Suppressing the carbon corrosion via mechanically mixing transition metal phosphide clusters: a comparative in-situ study in alkaline media”, J. Mater. Chem. A, 2023, 11, 17237–17245.

[8]   P. C. M. Laan, F. J. de Zwart, E. M. Wilson, A. Troglia, O. C. M. Lugier, N. J. Geels, R. Bliem, J. N. H. Reek, B. de Bruin, G. Rothenberg, N. Yan* “Understanding the oxidative properties of nickel oxyhydroxide in alcohol oxidation reactions” ACS Catal., 2023, 13, 8467−8476.

[9]   M. J. Mekkering, J. Biemolt, J. de Graaf, Y.-A. Lin, N. P. van Leest, A. Troglia, R. Bliem, B. de Bruin, G. Rothenberg, N. Yan*, “Dry reforming of methane over single-atom Rh/Al2O3 catalysts prepared by exsolution”, Catal. Sci. Technol., 2023, 13, 2255-2260.

[10] K. Zhao, S. Han, L. Ke, X. Wu, X. Yan, X. Cao, L. Li, X. Jiang, Z.P. Wang, H.J. Liu, N. Yan*, “Operando studies of electrochemical denitrogenation and its mitigation of N-doped carbon catalyst in alkaline media”, ACS Catal., 2023, 13, 2813–2821.

[11] L.J. Li, P. C. M. Laan, X. Yan, X. Cao, M. Mekkering, K. Zhao, L. Ke, X. Jiang, X. Wu, L. Li, L.J. Xue, Z.P. Wang, G. Rothenberg, N. Yan*, “High-rate alkaline water electrolysis at industrially -relevant conditions enabled by superaerophobic electrode assembly”, Adv. Sci., 2023, 10, 2206180.

[12] X. Cao, L. Ke, K. Zhao, X. Yan, X. Wu, N. Yan*, “Surface decomposition of doped PrBaMn2O5+δ induced by in-situ nanoparticle exsolution: quantitative characterization and catalytic effect in methane dry reforming reaction”, Chem. Mater., 2022, 34, 10484–10494.

[13] L. Ke, K. Zhao, X. Yan, X. Cao, X. Wu, C. Zhang, T. Luo, T. Ding, N. Yan*, “Facile mineralization and valorization of Cr-containing leather shavings for electrocatalytic H2O2 generation and organic pollutant removal”, Chem. Eng. J., 2022, 437, 135036.

[14] X. Yan, J. Biemolt, K. Zhao, Y. Zhao, X. Cao, Y. Yang, X. Wu, G. Rothenberg, N. Yan*, “A membrane-free flow electrolyzer operating at high current density using earth-abundant catalysts for water splitting”, Nat. Commun., 2021, 12, 4143.

[15] K. Zhao, X. Yan, L. Ke, X. Cao, X. Wu, Y. Zhao, N. Yan*, Enabling the life-cycle consideration and approach for the design of efficient water splitting catalyst via engineering amorphous precursor, Appl. Catal., B., 2021, 296, 120335.