Giant plasmene nanosheets, nanoribbons, and origami

Kae Jye Si; Debabrata Sikdar; Yi Chen; Fatima Eftekhari; Zaiquan Xu; Yue Tang; Wei Xiong; Pengzhen Guo; Shuang Zhang; Yuerui Lu; Qiaoliang Bao; Weiren Zhu; Malin Premaratne; Wenlong Cheng

doi:10.1021/nn504615a

Giant plasmene nanosheets, nanoribbons, and origami

Kae Jye Si
, Debabrata Sikdar
, Yi Chen
, Fatima Eftekhari
, Zaiquan Xu
, Yue Tang
, Wei Xiong
, Pengzhen Guo
, Shuang Zhang
, Yuerui Lu
, Qiaoliang Bao
, Weiren Zhu
, Malin Premaratne
, Wenlong Cheng^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

144 Scopus citations

Abstract

We introduce Plasmene - in analogy to graphene - as freestanding, one-particle-thick, superlattice sheets of nanoparticles ("meta-atoms") from the "plasmonic periodic table", which has implications in many important research disciplines. Here, we report on a general bottom-up self-assembly approach to fabricate giant plasmene nanosheets (i.e., plasmene with nanoscale thickness but with macroscopic lateral dimensions) as thin as ∼40 nm and as wide as ∼3 mm, corresponding to an aspect ratio of ∼75 000. In conjunction with top-down lithography, such robust giant nanosheets could be milled into one-dimensional nanoribbons and folded into three-dimensional origami. Both experimental and theoretical studies reveal that our giant plasmene nanosheets are analogues of graphene from the plasmonic nanoparticle family, simultaneously possessing unique structural features and plasmon propagation functionalities. (Figure Presented).

Original language	English
Pages (from-to)	11086-11093
Number of pages	8
Journal	ACS Nano
Volume	8
Issue number	11
DOIs	https://doi.org/10.1021/nn504615a
State	Published - 25 Nov 2014
Externally published	Yes

Keywords

Giant
Graphene
Nanoribbon
Nanosheet
Origami
Plasmene
Self-assembly

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10.1021/nn504615a

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@article{5de8ba716ef2407f84dd574c25f147ae,

title = "Giant plasmene nanosheets, nanoribbons, and origami",

abstract = "We introduce Plasmene - in analogy to graphene - as freestanding, one-particle-thick, superlattice sheets of nanoparticles ({"}meta-atoms{"}) from the {"}plasmonic periodic table{"}, which has implications in many important research disciplines. Here, we report on a general bottom-up self-assembly approach to fabricate giant plasmene nanosheets (i.e., plasmene with nanoscale thickness but with macroscopic lateral dimensions) as thin as ∼40 nm and as wide as ∼3 mm, corresponding to an aspect ratio of ∼75 000. In conjunction with top-down lithography, such robust giant nanosheets could be milled into one-dimensional nanoribbons and folded into three-dimensional origami. Both experimental and theoretical studies reveal that our giant plasmene nanosheets are analogues of graphene from the plasmonic nanoparticle family, simultaneously possessing unique structural features and plasmon propagation functionalities. (Figure Presented).",

keywords = "Giant, Graphene, Nanoribbon, Nanosheet, Origami, Plasmene, Self-assembly",

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year = "2014",

month = nov,

day = "25",

doi = "10.1021/nn504615a",

language = "英语",

volume = "8",

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T1 - Giant plasmene nanosheets, nanoribbons, and origami

AU - Si, Kae Jye

AU - Sikdar, Debabrata

AU - Chen, Yi

AU - Eftekhari, Fatima

AU - Xu, Zaiquan

AU - Tang, Yue

AU - Xiong, Wei

AU - Guo, Pengzhen

AU - Zhang, Shuang

AU - Lu, Yuerui

AU - Bao, Qiaoliang

AU - Zhu, Weiren

AU - Premaratne, Malin

AU - Cheng, Wenlong

PY - 2014/11/25

Y1 - 2014/11/25

N2 - We introduce Plasmene - in analogy to graphene - as freestanding, one-particle-thick, superlattice sheets of nanoparticles ("meta-atoms") from the "plasmonic periodic table", which has implications in many important research disciplines. Here, we report on a general bottom-up self-assembly approach to fabricate giant plasmene nanosheets (i.e., plasmene with nanoscale thickness but with macroscopic lateral dimensions) as thin as ∼40 nm and as wide as ∼3 mm, corresponding to an aspect ratio of ∼75 000. In conjunction with top-down lithography, such robust giant nanosheets could be milled into one-dimensional nanoribbons and folded into three-dimensional origami. Both experimental and theoretical studies reveal that our giant plasmene nanosheets are analogues of graphene from the plasmonic nanoparticle family, simultaneously possessing unique structural features and plasmon propagation functionalities. (Figure Presented).

AB - We introduce Plasmene - in analogy to graphene - as freestanding, one-particle-thick, superlattice sheets of nanoparticles ("meta-atoms") from the "plasmonic periodic table", which has implications in many important research disciplines. Here, we report on a general bottom-up self-assembly approach to fabricate giant plasmene nanosheets (i.e., plasmene with nanoscale thickness but with macroscopic lateral dimensions) as thin as ∼40 nm and as wide as ∼3 mm, corresponding to an aspect ratio of ∼75 000. In conjunction with top-down lithography, such robust giant nanosheets could be milled into one-dimensional nanoribbons and folded into three-dimensional origami. Both experimental and theoretical studies reveal that our giant plasmene nanosheets are analogues of graphene from the plasmonic nanoparticle family, simultaneously possessing unique structural features and plasmon propagation functionalities. (Figure Presented).

KW - Giant

KW - Graphene

KW - Nanoribbon

KW - Nanosheet

KW - Origami

KW - Plasmene

KW - Self-assembly

UR - https://www.scopus.com/pages/publications/84912571758

U2 - 10.1021/nn504615a

DO - 10.1021/nn504615a

M3 - 文章

AN - SCOPUS:84912571758

SN - 1936-0851

VL - 8

SP - 11086

EP - 11093

JO - ACS Nano

JF - ACS Nano

IS - 11

ER -

Giant plasmene nanosheets, nanoribbons, and origami

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Keywords

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