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、液体推进剂的催化分解技术

主要研究硝酸羟胺（HAN）基液体推进剂的催化分解技术，致力于为我国“星、箭、弹、船、器”等航天器提供绿色无毒的姿控动力。迄今，课题组研制的HAN分解催化剂已成功应用于多颗卫星及新一代载人飞船试验船。

2、环境催化与电催化

主要从事燃料电池电极催化材料、烟道气低温催化脱硝材料的基础及工程应用研究。

3、计算机模拟  

结合量子化学计算、分子动力学方法、蒙特卡洛方法、粘弹性格子弹簧模型、计算流体力学等，发展多尺度的计算机模拟方法，实现对高分子复合材料的结构与性能、固体推进剂的力学性能与损伤演化、火箭发动机的催化燃烧等模拟与预测。

研究生招生专业：（1）物理化学；（2）工业催化；（3）材料与化工（专业学位）

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.