宋东


的个人主页 http://teacher.nwpu.edu.cn/dsong

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基本信息 The basic information

宋东

航海学院

博士研究生毕业

工学博士

副教授

工作经历 Work Experience

工作经历

2019 - 至今 西北工业大学 副教授

2018 - 2019 美国俄亥俄州立大学 博士后

2016 - 2018 美国斯蒂文斯理工学院 博士后

教育经历

2012 - 2013 美国马萨诸塞大学安姆斯特分校 博士联合培养

2010 - 2016 西北工业大学 航海学院 博士

2009 - 2010 西北工业大学 航海学院 本科

2006 - 2009 西北工业大学 教育实验学院 本科




荣誉获奖 Awards Information

科学研究 Scientific Research

学术成果 Academic Achievements

 

[1]    D. Song and B. Bhushan. Enhancement of Water Collection and Transport in Bioinspired Triangular Patterns from Combined Fog and Condensation. J. Colloid Interface Sci. 557, 528 (2019).

[2]    D. Song, B. Song, H. Hu, X. Du, P. Du, C.-H. Choi, and J. P. Rothstein. Effect of a Surface Tension Gradient on the Slip Flow Along a Superhydrophobic Air-Water Interface. Physical Review Fluids 3, 033303 (2018).

[3]    D. Song and B. Bhushan. Water Condensation and Transport on Bioinspired Triangular Patterns with Heterogeneous Wettability at a Low Temperature. Philosophical Transactions of the Royal Society A 377, 20180335 (2018).

[4]    M. A. Sarshar, D. Song, C. Swarctz, J. Lee, and C.-H. Choi. Anti-Icing or De-Icing?: Icephobicities of Superhydrophobic Surfaces with Hierarchical Structures. Langmuir 34, 13821 (2018).

[5]    Y. Liu, D. Song, and C.-H. Choi. Anti- and De-Icing Behaviors of Superhydrophobic Fabrics. Coatings 8, 198 (2018).

[6]    D. Song and C.-H. Choi. in APS Division of Fluid Dynamics (Fall) 2017).

[7]    H. Hu et al., Significant and Stable Drag Reduction with Air Rings Confined by Alternated Superhydrophobic and Hydrophilic Strips. Science Advances 3 (2017).

[8]    P. Du, J. Wen, Z. Zhang, D. Song, A. Ouahsine, and H. Hu. Maintenance of Air Layer and Drag Reduction on Superhydrophobic Surface. Ocean Engineering 130, 328 (2017).

[9]    H. Hu, S. Yu, and D. Song. No-Loss Transportation of Water Droplets by Patterning a Desired Hydrophobic Path on a Superhydrophobic Surface. Langmuir 32, 7339 (2016).

[10] Y. Guo, D. Song, B. Song, and H. Hu. Manipulating Dynamic Drops Using a Hybrid Superhydrophobic/Hydrophilic Surface. Appl. Surf. Sci. 387, 1225 (2016).

[11] D. Song, B. Song, H. Hu, X. Du, and F. Zhou. Selectively Splitting a Droplet Using Superhydrophobic Stripes on Hydrophilic Surfaces. Phys. Chem. Chem. Phys. 17, 13800 (2015).

[12] D. Song, B. Song, H. Hu, X. Du, and Z. Ma. Contact Angle and Impinging Process of Droplets on Partially Grooved Hydrophobic Surfaces. Appl. Therm. Eng. 85, 356 (2015).

[13] D. Song, R. J. Daniello, and J. P. Rothstein. Drag Reduction Using Superhydrophobic Sanded Teflon Surfaces. Exp. Fluids 55, 1783 (2014).

[14] 宋东, 胡海豹宋保维. 湍流状态下超疏水表面流场减阻特性数值仿真研究. 空气动力学学报, 233 (2012).