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dc.contributor.advisor刘向阳
dc.contributor.author张志森
dc.date.accessioned2018-12-05T01:46:15Z
dc.date.available2018-12-05T01:46:15Z
dc.date.issued2018-02-27
dc.identifier.urihttps://dspace.xmu.edu.cn/handle/2288/170313
dc.description.abstract广泛存在于自然界的结冰现象对人类社会有着很大的影响,非预期的结冰往往会给日常生活带来不便和经济损失,甚至人员伤亡。基于生物仿生的超疏水界面材料不仅具有很好的抗冻效果,还克服了传统抗冻方法能耗高,不环保和不便捷等缺陷,为界面抗冻的研究提供了新的途径,成为最近几年界面抗冻的研究热点,一系列具有卓越抗冻性能的超疏水界面材料被发现,促进了相关研究的进行,加深了人们对超疏水界面材料抗冻的认识。然而,由于目前的研究工作采用的实验条件不同,对超疏水界面材料抗冻性能的实验条件没有进行严格控制,同时对超疏水材料的抗冻性能多为定性描述,没有定量的描述超疏水材料的抗冻性能,这使得不同研究工作的结果不能相互比较印证,...
dc.description.abstractIcing and frosting cause inconvenience for the daily life of human beings. Although research on anti-icing has been carried out for decades, environmentally harmless, economical, and efficient strategies for anti-icing remain to be developed. The new anti-freezing strategy by superhydrophobic substrate (SHS) becomes a potential candidate for its unique properties, which could increase the ice nucl...
dc.language.isozh_CN
dc.relation.urihttps://catalog.xmu.edu.cn/opac/openlink.php?strText=59592&doctype=ALL&strSearchType=callno
dc.source.urihttps://etd.xmu.edu.cn/detail.asp?serial=60266
dc.subject异相成核
dc.subject界面抗冻
dc.subject晶体生长
dc.subject超疏水材料
dc.subject分子动力学模拟
dc.subjectHeterogeneous nucleation
dc.subjectInterfacial anti-freezing
dc.subjectCrystal growth
dc.subjectSuperhydrophobic substrate
dc.subjectMolecular dynamic simulation
dc.title仿生超疏水材料抗冻机制的研究
dc.title.alternativeAnti-freezing Mechanism of Superhydrophobic Substrate
dc.typethesis
dc.date.replied2016-10-28
dc.description.note学位:博士后
dc.description.note院系专业:物理科学与技术学院_物理化学
dc.description.note学号:2014190014


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