Superlattices with non-spherical building blocks

[Display omitted] ▶ Non-spherical nanocrystals display much more variety of assembly patterns. ▶ Nanocubes usually pack in “simple cubic superlattice” pattern. ▶ The assembly patterns of nanooctahedra, nanoplates, and nanorods are complex and sensitive. ▶ Novel properties are being developed for the...

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Published inNano today Vol. 5; no. 5; pp. 390 - 411
Main Authors Quan, Zewei, Fang, Jiye
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 2010
Subjects
Metamaterials
Nanocomposites
Nanocrystals
Nanocube
Nanomaterials
Nanooctahedron
Nanorods
Nanostructure
Non-spherical nanocrystal
Self assembly
Supercrystal
Superlattice
Superlattices
Nanocube
Self-assembly
Non-spherical nanocrystal
Supercrystal
Superlattice
Nanooctahedron
Online AccessGet full text
ISSN1748-0132
1878-044X
DOI10.1016/j.nantod.2010.08.011

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Abstract [Display omitted] ▶ Non-spherical nanocrystals display much more variety of assembly patterns. ▶ Nanocubes usually pack in “simple cubic superlattice” pattern. ▶ The assembly patterns of nanooctahedra, nanoplates, and nanorods are complex and sensitive. ▶ Novel properties are being developed for these non-spherical superlattices. Self-assembly of nanocrystals has been a subject of comprehensive studies including preparation, characterization and manipulation. In this paper, we summarize recent research reports in self-assembled superlattices consisting of non-spherical nanocrystals such as nanocubes, nanooctahedra, nanorods and nanoplates, and discuss their superstructures. Compared with spherical nanocrystals which are randomly oriented when being assembled into a superlattice, the non-spherical nanocrystals can form more abundant and complex superlattices and may offer certain enhanced characteristics with their anisotropic assemblies. In each type of faceted shape, synthesis, superlattice structure as well as formation conditions are discussed. With a brief review of novel properties generated from non-spherical superlattices, this article aims to provide an outline of various shape-induced superlattices that could serve as potential new device metamaterials in future.
AbstractList [Display omitted] ▶ Non-spherical nanocrystals display much more variety of assembly patterns. ▶ Nanocubes usually pack in “simple cubic superlattice” pattern. ▶ The assembly patterns of nanooctahedra, nanoplates, and nanorods are complex and sensitive. ▶ Novel properties are being developed for these non-spherical superlattices. Self-assembly of nanocrystals has been a subject of comprehensive studies including preparation, characterization and manipulation. In this paper, we summarize recent research reports in self-assembled superlattices consisting of non-spherical nanocrystals such as nanocubes, nanooctahedra, nanorods and nanoplates, and discuss their superstructures. Compared with spherical nanocrystals which are randomly oriented when being assembled into a superlattice, the non-spherical nanocrystals can form more abundant and complex superlattices and may offer certain enhanced characteristics with their anisotropic assemblies. In each type of faceted shape, synthesis, superlattice structure as well as formation conditions are discussed. With a brief review of novel properties generated from non-spherical superlattices, this article aims to provide an outline of various shape-induced superlattices that could serve as potential new device metamaterials in future.
Self-assembly of nanocrystals has been a subject of comprehensive studies including preparation, characterization and manipulation. In this paper, we summarize recent research reports in self-assembled superlattices consisting of non-spherical nanocrystals such as nanocubes, nanooctahedra, nanorods and nanoplates, and discuss their superstructures. Compared with spherical nanocrystals which are randomly oriented when being assembled into a superlattice, the non-spherical nanocrystals can form more abundant and complex superlattices and may offer certain enhanced characteristics with their anisotropic assemblies. In each type of faceted shape, synthesis, superlattice structure as well as formation conditions are discussed. With a brief review of novel properties generated from non-spherical superlattices, this article aims to provide an outline of various shape-induced superlattices that could serve as potential new device metamaterials in future.
Author Fang, Jiye
Quan, Zewei
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  givenname: Jiye
  surname: Fang
  fullname: Fang, Jiye
  email: jfang@binghamton.edu
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Snippet [Display omitted] ▶ Non-spherical nanocrystals display much more variety of assembly patterns. ▶ Nanocubes usually pack in “simple cubic superlattice” pattern....
Self-assembly of nanocrystals has been a subject of comprehensive studies including preparation, characterization and manipulation. In this paper, we summarize...
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SubjectTerms Metamaterials
Nanocomposites
Nanocrystals
Nanocube
Nanomaterials
Nanooctahedron
Nanorods
Nanostructure
Non-spherical nanocrystal
Self assembly
Supercrystal
Superlattice
Superlattices
Title Superlattices with non-spherical building blocks
URI https://dx.doi.org/10.1016/j.nantod.2010.08.011
https://www.proquest.com/docview/849451194
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