首页  课题组概况  研究方向  研究成果  成员介绍  实验设备  组内活动  合作交流  联系我们 
新闻动态

祝贺胡旭等同学的文章被Chemical En...
祝贺朱志杰等同学的文章被无机材料...
祝贺张雪洁等同学的文章被Separatio...
祝贺郑哲等同学的文章被Nature Comm...
祝贺孙丹卉等同学的文章被Applied C...
祝贺吕家贺等同学的文章被Advanced ...
祝贺杨欢等同学的文章被ACS Applied...

首页
您的位置: 首页>>正文

祝贺侯璐等同学的文章被 Nano Research 接受发表!

2023年06月16日 11:21  点击:[]

祝贺侯璐等同学的文章

“Crystallization-assisted asymmetric assembly of polymer nanocrescents and fidelity carbon analogues: experiment and simulation study”

Nano Research 接受发表!


Abstract

Anisotropic nanoparticles, giving rise to a large number of novel physicochemical properties and functionalities, have provoked increasing attentions in nanoscience and nanotechnology. The remained challenge is to develop synthetic methods for the fabrication of anisotropic nanoparticles with less symmetry under the principle of minimum surface free energy. Here, we established a crystallization-assisted asymmetric assembly method for the synthesis of anisotropic polymer nanocrescents and their carbonaceous analogues by using triblock copolymer F127 and octadecanol in aqueous solution. With the aid of molecular dynamics (MD) simulation, we demonstrate that the observed crescent structure is caused by asymmetry distribution of octadecanol crystal within the hydrophobic core of F127 micelles, via the formation of intermediate elliptic micelles bearing hydrophobic ends that further fuse with each other end-to-end at an angle into curing nanocrescent morphology. The influences of annealing time, annealing temperature and mole ratios of precursors that govern the kinetics of the assembly and polymerization process were systematically investigated and a series of polymer nanocrescents with tunable length of ~85 nm to ~262 nm and aspect ratio of ~1.1 to ~3.0 were prepared. The ability to create novel crescent-shaped polymer and carbon nanoparticles and the identification of asymmetric assembly process by combining experiment and simulation study will provide a valuable contribution both to theoretical and technological researches.




上一条:祝贺王思佳等同学的文章被 Chemistry of Materials 接受发表! 下一条:祝贺盛健等同学的文章被 ACS Catalysis 接受发表!

关闭

先进能源材料与催化团队 版权所有

本站部分内容来源于网络,版权归原作者或来源机构所有,如果涉及任何版权方面的问题请及时和我们联系,我们将尽快妥善处理!

推荐使用 Internet Explorer 浏览器浏览本站