孟现文-j9旗舰厅

发布者:张立江发布时间:2020-02-28浏览次数:4066

孟现文,中国矿业大学,材料与物理学院,预聘副教授,主要研究低维复杂纳米受限体系纳米流体模拟与调控,在physical review echemical physicschemical physics lettersepl等主流期刊发表研究论文21篇(其中第一作者或通讯作者研究论文20篇)。指导研究生3名,指导研究生发表研究论文10篇。



教育经历

2020/09-2021/07华东理工大学,物理系,访问学者,导师:方海平(杰青)

2009/09-2014/07复旦大学,物理系,博士,导师:黄吉平(杰青)

2005/09-2009/07江苏师范大学,物理系,学士


科研与学术工作经历

(1) 2020-04 至 今, 中国矿业大学, 材料与物理学院, 预聘副教授

(2) 2019-11 2020-03, 中国矿业大学, 材料与物理学院, 讲师

(3) 2016-09 2019-10, 中国矿业大学, 物理学院, 讲师

(4) 2014-07 2016-08, 中国矿业大学, 理学院, 讲师

主持科研项目(课题)及人才计划项目情况:

 (1)国家自然科学基金青年基金,项目批准号:11605285,金额:23

 (2)国家自然科学基金理论物理专项,项目批准号:11547246,金额:5

 (3)江苏省自然科学基金青年基金,项目批准号:bk20150173,金额:20

 (4)中国矿业大学青年基金,项目批准号:2015qna48,金额:10

代表性研究成果和学术奖励情况

已发表研究论文(*为通讯作者

  1. x. kang, x. w. meng*, effect of carbon nanotube diameter on water transfer through disjoint carbon nanotubes in the lateral electric fields, chemical physics, 565, 111733 (2023).

  2. l. y. wang, x. w. meng*, water transport through the inward combined carbon nanotube, chemical physics, 566, 111756 (2023).

  3. x. w. meng*, y. li, accelerating water transport through a disjoint nanochannel with a large nanogap, physica e: low-dimensional system and nanostructures, 135, 114980 (2022).

  4. x. w. meng*, x. kang, reducing water transfer rate through a carbon nanotube efficiently: the role of a small nanogap, chemical physics letters, 787, 139281 (2022).

  5. x. w. meng*, x. kang, accelerating water unidirectional transport efficiency through carbon nanotubes, chemical physics letters, 804, 139912 (2022).

  6. x. kang, x. w. meng*, x. q. yang*, tunable transport of a methane-water mixture through a carbon nanotube, chemical physics, 559, 111544 (2022).

  7. x. w. meng*, y. li,unexpected effect of an empty cavity onwater transport througha combinedcarbon nanotube, epl, 136, 66001 (2021).

  8. x. w. meng*,y. li, x. q. yang*, accelerating water wet-dry phase transitions in a one-dimensional carbon nanotube, chemical physics,550, 111300 (2021).

  9. x. w. meng*,l. shen, gases of driving methane out of a carbon nanotube,journal of physics communications, 4, 015003 (2020).

  10. x.w. meng*, l. shen, transport between one dimensional disjointnanochannels, chemical physics letters, 739, 137029 (2020).

  11. x. w. meng*, y. li, l. shen, x. q. yang*, reinforcing a water bridge in a disjoint nanochannel, epl, 131, 20003 (2020).

  12. x. w. meng*, y. li, l. shen, a controllable water transfer rate across a tandem carbon nanotube, international journal of modern physics b, 33, 1950324 (2019).

  13. x. w. meng*, a remarkable enhancement of watermolecules permeation across a combined carbon nanotube, epl,125, 14001 (2019).

  14. x.w. meng*, molecular dynamics simulations of water moleculesacross a combined carbon nanotube,international journal of modern physics b,32, 1850278 (2018).

  15. x. w. meng*, j. p. huang*, control water molecules acrosscarbon-based nanochannels, chinese physics b, 27, 013101 (2018).

  16. x. w. meng*, j. p. huang, fast phase transition of water molecules in adefective carbon nanotube under an electric field,international journal of modern physics b, 30, 1650019 (2016).

  17. x. w. meng*, j. p. huang,enhancement of water flow across a carbon nanotube,molecular simulation, 42, 215 (2016).

  18. t. qiu, x. w. meng, j. p. huang*, nonstraight nanochannels transfer waterfaster than straight nanochannels, the journal of physical chemistry b, 119, 1496 (2015).

  19. x.w.meng*, y. wang, y.j. zhao, j. p. huang, distinct transport propertiesof o2 and ch4 across a carbon nanotube, molecular physics, 111, 1000 (2013).

  20. x.w.meng, j. p. huang*, enhanced permeation of single-file watermolecules across a nonochannel,physical review e, 88, 014104 (2013).

  21. x.w. meng, y.wang, y. j. zhao*, j. p. huang*, gating of a waternanochannel driven by dipolar molecules,the journal of physical chemistry b,115, 4768 (2011).




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