黄永民，工学博士，教授，博士生导师。

1973年6月出生于江西省南城县。1998年7月在华东理工大学化学与分子工程学院工作至今。主要从事催化材料与工程、计算机模拟等方面的研究。

1、催化材料与工程  

长期致力于硝酸羟胺（HAN）基无毒液体推进剂的催化分解技术研究，研制的HAN分解催化剂在国际上率先实现航天器的型号应用，已在我国新一代载人飞船试验船及多颗卫星的推进系统得到成功应用；此外，课题组研究兴趣也涉及催化制氢、环境催化材料、燃料电池电极催化材料等领域的基础及工程应用研究。

2、计算机模拟  

针对固体推进剂的微观结构与宏观力学性能之间的联系，开发基于粘弹性格子弹簧模型的数值模拟方法，研究外力加载下固体推进剂内部微裂纹的产生与演化过程；利用第一性原理计算与计算流体力学仿真，通过不同尺度研究火箭及冲压发动机内推进剂的燃烧机制与流动特性。

研究生招生专业：（1）先进材料与制备技术；（2）工业催化

联系电话：021-64250924， E-mail: huangym@ecust.edu.cn

近几年的代表性论文：

1. Hu WH, Huang YM*, et al. Facile one-pot synthesis of a nitrogen-doped mesoporous carbon architecture with cobalt oxides encapsulated in graphitic layers as a robust bicatalyst for oxygen reduction and evolution reactions. J. Mater. Chem. A. 2016, 4(43): 16920-16927.

2. Cui ZW, Huang YM*, et al. Viscoelastic lattice spring model for mechanical behavior of polymeric particle filled composites. Engineering Fracture Mechanics. 2018, 199: 555-566.

3. Huang XB, Huang YM*, et al. 3D Nitrogen, Sulfur-Codoped Carbon Nanomaterial-Supported Cobalt Oxides with Polyhedron-Like Particles Grafted onto Graphene Layers as Highly Active Bicatalysts for Oxygen-Evolving Reactions. ACS Appl. Mater. Interfaces. 2018, 10: 7180-7190.

4. Zhang XK, Huang YM*, et al. A metal-organic framework-derived Fe-N-C electrocatalyst with highly dispersed Fe-Nx towards oxygen reduction reaction. International Journal of Hydrogen Energy. 2019, 44(50): 27379-27389.

5. Du XX, Huang YM*, et al. Nanosheets-assembled Ni (Co) doped CeO2 microspheres toward NO + CO reaction. Applied Catalysis A: General. 2020, 602.

6. Lv SX, Huang YM*, et al. The synthesis of highly active Cu and N co-doped electrocatalysts via strong electrostatic adsorption method for oxygen reduction reaction. International Journal of Hydrogen Energy. 2021, 46(46): 23694-23701.

7. Cui ZW, Huang YM*. Exploration of the Structure–Property Relationship of Polymer‐Based Composites by Monte‐Carlo‐Coupled Viscoelastic Lattice Spring Model. Advanced Theory and Simulations. 2021, 4(3).

8. Chen Y, Huang YM*, et al. Precisely deposited Pd on ZnO (002) facets derived from complex reduction strategy for methanol steam reforming. International Journal of Hydrogen Energy. 2022, 47(33): 14869-14883.