科研队伍
  • 姓名: 袁泉子
  • 性别: 男
  • 职称: 研究员/博导、优青
  • 学历: 博士
  • 电话: 010-82543982
  • 传真: 
  • 电子邮件: yuanquanzi@lnm.imech.ac.cn
  • 通讯地址 北京市北四环西路15号 中国科学院力学研究所

    简历:

  •     2011年7月 - 至今       中科院力学所 研究员 (2017至今)、副研究员 (2013-2017)、助研 (2011-2013)
        2006年9月 - 2011年6月   中科院力学所 理学博士
        2001年9月 - 2006年6月   同济大学 工学学士

    研究领域:

  •     微纳米力学,表面与界面力学,物理力学

    社会任职:

  •     中国力学学会-微纳米力学工作组,秘书长
        中国力学学会-软物质力学工作组,组员
        北京力学会-青年工作委员会,委员
        国家知识产权局,技术专家

    获奖及荣誉:

  •     2018年,中科院青年创新促进会优秀会员     
        2017年,国家自然科学基金-优秀青年科学基金项目
        2015年,中国科协“青年人才托举工程” (力学共6名)
        2014年,国家自然科学二等奖 (第二完成人)
        2014年,中科院青年创新促进会会员
        2012年,中国科学院优秀博士论文
        2010年,中国科学院院长优秀奖
        2010年,中科院力学所郭永怀奖一等奖

    代表论著:

  •    

     
      封面论文:
      1. Yuan QZ and Zhao YP. Precursor film in dynamic wetting, electrowetting and electro-elasto-capillarity. Physical Review Letters, 104: 246101 (2010). [PDF]
      
      2. Chen EH, Yuan QZ, Zhao YP. Topography-induced symmetry transition of droplets on quasi-periodically patterned surfaces. Soft Matter, 14: 6198-6205 (2018). [PDF]
      
     
      发表论文:
              JFM (力学)、PRL (物理)、JACS (化学)、Nano Lett. (纳米)等国际权威刊物发表SCI论文20余篇,SCI他引900余次。
     
              27. MiaoQ, Yuan QZ, Zhao YP. Dissolutive flow in nanochannels: transition between plug-like and Poiseuille-like. Microfluidics and Nanofluidics, 22: 141 (2018). [PDF]
              26. 苗青, 杨锦鸿, 袁泉子, 赵亚溥. 溶解润湿动力学的物理力学. 科学通报, 63: 2985-2993 (2018). [PDF]
              25. Chen EH, Yuan QZ, Zhao YP. Topography-induced symmetry transition of droplets on quasi-periodically patterned surfaces. Soft Matter, 14: 6198-6205 (2018). [PDF]
              24. Yang JH, Yuan QZ, Zhao YP. Evolution of the interfacial shape in dissolutive wetting: Coupling of wetting and dissolution.International Journal of Heat and Mass Transfer, 118: 201-207 (2018). [PDF]
              23. Yuan QZ, Yang JH, Sui Y, Zhao YP. Dynamics of Dissolutive Wetting: A Molecular Dynamics Study. Langmuir, 33: 6464-6470 (2017). [PDF]
              22. Lin K, Yuan QZ, Zhao YP. Using graphene to simplify the adsorption of methane on shale in MD simulations. Computational Materials Science, 133: 99-107 (2017). [PDF]
              21. Lin K, Yuan QZ, Zhao YP and Cheng CM. Which is the most efficient candidate for the recovery of confined methane: water, carbon dioxide or nitrogen? Extreme Mechanics Letters, 9: 127-138 (2016). [PDF]
              20. 袁泉子, 沈文豪, 赵亚溥. 移动接触线的物理力学研究. 力学进展, 46: 201608 (2016). [PDF]
              19. Chen EH, Yuan QZ and Zhao YP. Dynamic polygonal spreading of a droplet on a lyphilic pillar-arrayed surface. Journal of Adhesion Science and Technology, 30: 2265-2276 (2016). [PDF]
              18. Zhao YP, Chen JC, Yuan QZ and Cheng CM. Microcrack connectivity in rocks: a real-space renormalization group approach for 3D anisotroopic bond percolation. Journal of Statistical Mechanics: Theory and Experiment, 1: 013205 (2016). [PDF]
              17. Yuan QZ, Zhu XY, Lin K and Zhao YP. Molecular dynamics simulations of enhanced recovery of confined methane with carbon dioxide. Physical Chemistry Chemical Physics, 17: 31887-31893 (2015) [PDF]
              16. Yuan QZ and Zhao YP. Statics and dynamics of electrowetting on pillar-arrayed surfaces at nanoscale. Nanoscale, 7: 2561-2567 (2015). [PDF]
        15. Yuan QZ, Huang XF and Zhao YP. Dynamic spreading on pillar-arrayed surfaces: viscous resistance versus molecular friction.Physics of Fluids, 26: 092104 (2014). [PDF]
        14. Zhu XY, Yuan QZ and Zhao YP. Phase transitions of water overlayer on charged graphene: From electromelting to electrofreezing.Nanoscale, 6: 5432-5437 (2014). [PDF]
        13. Yuan QZ and Zhao YP. Multiscale dynamic wetting of a droplet on a lyophilic pillar-arrayed surface. Journal of Fluid Mechanics, 716: 171-188 (2013). [PDF]
        12. Yuan QZ and Zhao YP. Wetting on flexible hydrophilic pillar-arrays. Scientific Reports, 3: 1944 (2013).  [PDF]
        11. Yuan QZ and Zhao YP. Topology-dominated dynamic wetting of the precursor chain in a hydrophilic interior corner. Proceedings of the Royal Society A, 468: 310-322 (2012). [PDF]
        10. Zhu XY, Yuan QZ and Zhao YP. Capillary wave propagation during the delamination of graphene by the precursor films in electro-elasto-capillarity. Scientific Reports, 2: 927 (2012). [PDF]
        9. Cao H, Yuan QZ, Zhu X, Zhao YP, Liu MH. Hierarchical Self-Assembly of Achiral Amino Acid Derivatives into Dendritic Chiral Nanotwists. Langmuir, 28: 15410-15417 (2012). [PDF]
        8. Cun HY, et al. Tuning Structural and Mechanical Properties of Two-Dimensional Molecular Crystals: The Roles of Carbon Side Chains.Nano Letters, 12: 1229-1234 (2012). [PDF]
        7. Qin XC, Yuan QZ, Zhao YP, et al. Measurement of the rate of water translocation through carbon nanotubes. Nano Letters, 11: 2173-2177 (2011). [PDF]
        6. Yuan QZ and Zhao YP. Precursor film in dynamic wetting, electrowetting and electro-elasto-capillarity. Physical Review Letters, 104: 246101 (2010). [PDF]
        5. Yuan QZ and Zhao YP. Hydroelectric voltage generation based on water-filled single-walled carbon nanotubes. Journal of the American Chemical Society, 131: 6374-6376 (2009). [PDF]
        4. Yuan QZ, Zhao YP, Li LM and Wang TH. Ab initio study of ZnO based gas sensing mechanisms: Surface reconstruction and charge transfer. The Journal of Physical Chemistry C, 113: 6107-6113 (2009). [PDF]
        3. Yuan QZ and Zhao YP. Transport properties and induced voltage in the structure of water-filled single-walled boron-nitrogen nanotubes.Biomicrofluidics, 3, 022411 (2009). [PDF]
        2. Zang JL, Yuan QZ, Wang FC and Zhao YP. A comparative study of Young’s modulus of single-walled carbon nanotube by CPMD, MD, and first principle simulations. Computational Materials Science, 46: 621-625 (2009). [PDF]
        1. Wang BB, Xie JJ, Yuan QZ and Zhao YP. Growth mechanism and joint structure of ZnO tetrapods. Journal of Physics D: Applied Physics, 41: 102005 (2008). [PDF]

    承担科研项目情况:

  •     国家973、863项目;
        国家自然科学基金青年项目、面上项目、国际合作项目、石油化工联合项目等;
        中科院重点部署项目、创新交叉团队、青年创新促进会等;
        英国Royal Society-Newton Mobility Grant。