汽车学院
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在职员工资料

姓名

王楠

性别

职务职称

硕导

博导-所在学科

硕导-所在学科

车辆工程

所在学科

车辆工程

硕导/博导

联系电话

15951288683

电子信箱

zzwangnan@163.com

学习、工作经历

2012.09~2017.06   南京理工大学  材料科学与工程学院    获工学博士学位

2017.07 至今       江苏大学  汽车工程研究院  从事教学科研工作

Science   Journal of Chemistry(SJC) 编辑

新能源汽车概论

极端环境车辆防冰,摩擦润滑,特种车身金属防护,表面工程

[1] Nan Wang,   Dangsheng Xiong, Yaling Deng, et al. Mechanically robust superhydrophobic   steel surface with anti-Icing, UV-durability, and corrosion resistance   properties, ACS Applied Materials & Interfaces, 2015, 7, 6260-6272 (IF:   8.091区,ESI高被引论文)

[2] Nan Wang, Y. Lu, D.   Xiong, et al. Designing durable and flexible superhydrophobic coatings and   its application in oil purification. Journal of Materials Chemistry A, 2016,   4, 4107–4116. (IF9.931区,ESI   高被引论文)

[3] Nan Wang, D. Xiong,   Yao Lu, et al. Design and fabrication of the lyophobic slippery surface and   its application in anti-icing. The Journal of Physical Chemistry C, 2016,   120, 11054−11059 (IF4.48, 2)

[4] Nan Wang, L. Tang,   W. Tong , et al. Fabrication of robust and scalable superhydrophobic surfaces   and investigation of their anti-icing properties. Materials and Design, 2018,   156, 320–328 (IF4.52, 2)

[5] Nan Wang, Dangsheng   Xiong, Sai Pan, et al. Fabrication of superhydrophobic and lyophobic slippery   surface on steel substrate. Applied Surface Science, 387 (2016) 1219–1224 (IF4.43, 2)

[6] Nan Wang, Dangsheng   Xiong, Sai Pan, et al. Superhydrophobic paper with superior stability against   deformations and humidity. Applied Surface Science, 389 (2016) 354–360 (IF4.43, 2)

[7] Nan Wang,   D.S. Xiong, M. Li, et al. Superhydrophobic surface on steel substrate and its   anti-icing property in condensing conditions, Applied Surface Science,   355(2015), 226–232 (IF4.43, 2)

[8] Nan Wang,   D. Xiong, Influence of TMES on the wetting behavior, humidity resistance and   transparency of TEOS based films, Applied Surface Science, 292 (2014) 68-73.   (IF4.43, 2)

[9] Nan Wang, D.S.   Xiong, Superhydrophobic membranes on metal substrate and their corrosion protection   in different corrosive media, Applied Surface Science, 305(2014)603-608. (IF4.43, 2)

[10] Nan Wang, D. Xiong,   Comparison of micro-/nano-hierarchical and nano-scale roughness of silica   membranes in terms of wetting behavior and transparency, Colloids and   Surfaces A, 446 (2014) 8-14.

[11] Nan Wang,   Dangsheng Xiong, Sai Pan, et al. Robust superhydrophobic coating and the   anti-icing study of its lubricants-infused-composited surface under   condensing condition. New Journal of Chemistrry, 41 (2017) 1846-1853.

[12] Nan Wang,   Lingling Tang, Yingfeng Cai, et al. Scalable superhydrophobic coating with   controllable wettability and investigations of its drag reduction. Colloids   and Surfaces A, 555 (2018) 290-295.

主持国家自然科学基金-镁合金表面超疏水/湿度响应复合结构及其协同防护性能研究(5180521926万)  

主要参与人《耐久性表面纳米防冰与结构/功能复合材料一体化研究》十三五装备预研(30万)

主要参与人《电芯性能测试》(38万)

1. 王楠,熊党生;一种疏液超滑界面及其制备方法

2. 熊党生,王楠;李梦桐;一种超疏水、超亲油氟碳树脂块体及其制备方法  

3. 熊党生,王楠;一种耐久性抗冰超疏水涂层及其制备方法

4. 熊党生,王楠;一种耐磨抗折弹性超疏水涂层及其制备方法

5. 熊党生,潘赛,王楠;一种超疏水减阻涂层的制备方法      

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