Colloidal analogues of polymer chains, ribbons and 2D crystals employing orientations and interactions of nano-rods dispersed in a nematic liquid crystal.

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Tytuł:: Colloidal analogues of polymer chains, ribbons and 2D crystals employing orientations and interactions of nano-rods dispersed in a nematic liquid crystal.
Autorzy:: M MR; School of Physics, University of Hyderabad, Hyderabad, 500046, India.
Pujala RK; School of Physics, University of Hyderabad, Hyderabad, 500046, India.; Indian Institute of Science Education and Research, Tirupati, India.
Dhara S; School of Physics, University of Hyderabad, Hyderabad, 500046, India. .
Źródło:: Scientific reports [Sci Rep] 2019 Mar 15; Vol. 9 (1), pp. 4652. Date of Electronic Publication: 2019 Mar 15.
Typ publikacji:: Journal Article
Język:: English
Imprint Name(s):: Original Publication: London : Nature Publishing Group, copyright 2011-
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Grant Information:: DST/INSPIRE/04/2016/002370 Department of Science and Technology, Ministry of Science and Technology (DST); DST/SJF/PSA-02/2014-2015 Department of Science and Technology, Government of Rajasthan (Department of Science & Technology, Government of Rajasthan)
Entry Date(s):: Date Created: 20190316 Latest Revision: 20210109
Update Code:: 20240105
PubMed Central ID:: PMC6420569
DOI:: 10.1038/s41598-019-40198-1
PMID:: 30874576
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Robust control over the position, orientation and self-assembly of nonspherical colloids facilitate the creation of new materials with complex architecture that are important from technological and fundamental perspectives. We study orientation, elastic interaction and co-assembly of surface functionalized silica nano-rods in thin films of nematic liquid crystal. With homeotropic boundary condition, the nano-rods are predominantly oriented perpendicular to the nematic director which is different than the mostly parallel orientation of the micro-rods. The percentage of perpendicular nano-rods are significantly larger than the parallel nano-rods. The perpendicular nano-rods create very weak elastic deformation and exhibit unusual, out-of-plane, attractive interaction. On the other hand, the nano-rods oriented parallel to the director create strong elastic deformation and shows anisotropic, in-plane, dipolar interaction. In both orientations, the induced defects reside in the nano-rods. With the help of a dynamic laser tweezers and using nano-rods as building blocks we demonstrate colloidal analogues of linear polymer chains, ribbons and two-dimensional binary crystals.

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