文献详情
Robust Underwater Oil-Repellent Material Inspired by Columnar Nacre
文献类型期刊
作者Guo, Tianqi[1];Heng, Liping[2];Wang, Miaomiao[3];Wang, Jianfeng[4];Jiang, Lei[5]
机构
2016
期刊名称ADVANCED MATERIALS影响因子和分区
通讯作者Heng, LP; Wang, JF (reprint author), Beihang Univ, Key Lab Bioinspired Smart Interfacial Sci & Techn, Beijing Key Lab Bioinspired Energy Mat & Devices, Minist Educ,Sch Chem & Environm, Beijing 100191, Peoples R China.
28
来源信息年:2016  卷:28  期:38  页码范围:8505-8510  
38
期刊信息ADVANCED MATERIALS影响因子和分区  ISSN:0935-9648
页码范围8505-8510
关键词columnar nacre; layer structures; low adhesion; robust; underwater superoleophobicity
增刊正刊
摘要Inspired by natural columnar nacre, artificial montmorillonite/hydroxyethyl cellulose columnar nacre-like materials with a site-specific layered structure in the interior and a hierarchical columnar structure on the surface are prepared. The materials exhibit improved tensile strength, good chemical stability in sea-water, superior resistance to sand-grain impingement, and robust underwater low-adhesive superoleophobicity.
收录情况SCIE(WOS:000386103700022)  EI(20164102898668)  PubMed(27500882)  
所属部门化学与环境学院
DOI10.1002/adma.201603000
学科化学综合;物理化学;材料科学:综合;纳米科技;物理:应用;物理:凝聚态物理
百度学术Robust Underwater Oil-Repellent Material Inspired by Columnar Nacre
语言外文
ISSN0935-9648
被引频次14
人气指数33
浏览次数33
基金National Research Fund for Fundamental Key Projects [2014CB931802, 2013CB834705]; National Natural Science Foundation of China [51541301, 51403008]; China Scholarship Council
全部评论(0 条评论)
作者其他论文

Bioinspired Graphene-Based Nanocomposites and Their Application in Flexible Energy Devices.

Wan, Sijie;Peng, Jingsong;Jiang, Lei,等.ADVANCED MATERIALS.2016,28(36),7862-7898.

Bioinspired Interfaces with Superwettability: From Materials to Chemistry.

Su, Bin;Tian, Ye;Jiang, Lei.JOURNAL OF THE AMERICAN CHEMICAL SOCIETY.2016,138(6),1727-1748.

Cactus Stem Inspired Cone-Arrayed Surfaces for Efficient Fog Collection.

Ju, Jie;Yao, Xi;Yang, Shuai,等.ADVANCED FUNCTIONAL MATERIALS.2014,24(44),6933-6938.

Regular Metal Sulfide Microstructure Arrays Contributed by Ambient-Connected Gas Matrix Trapped on Superhydrophobic Surface.

Wang, Shasha;Wu, Yuchen;Kan, Xiaonan,等.ADVANCED FUNCTIONAL MATERIALS.2014,24(44),7007-7013.

Peanut Leaf Inspired Multifunctional Surfaces.

Yang, Shuai;Ju, Jie;Qiu, Yuchen,等.SMALL.2014,10(2),294-299.

登录