Evaporative self-assembly of gold nanorods into macroscopic 3D plasmonic superlattice arrays for SERS detection

Penghui Li; Xue-Feng Yu; Paul K. Chu

Evaporative self-assembly of gold nanorods into macroscopic 3D plasmonic superlattice arrays for SERS detection

Penghui Li, Xue-Feng Yu^*, Paul K. Chu

^*Corresponding author for this work

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

Abstract

The buildup of 3D superlattice with collective electro-optical properties by ordered self-assembly of nanoparticles has become the cutting-edge technology in the research field of nanomaterials [1]. Droplet evaporative self-assembly is a simple and effective technique is to build the superlattice structure. However, the well-known coffee-ring effect seriously hinders the ordered packing of the nanoparticles. A strategy to totally suppress or even reverse the coffee-ring effect is highly desirable in order to accomplish homogenous self-assembly of nanoparticles into a macroscopic structure [3].

Original language	English
Title of host publication	Program Book - 14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017)
Pages	240–241
Publication status	Published - Oct 2017
Event	14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017) - New World Shanghai Hotel, Shanghai, China Duration: 17 Oct 2017 → 20 Oct 2017

Conference

Conference	14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017)
Abbreviated title	PBII&D 2017
Place	China
City	Shanghai
Period	17/10/17 → 20/10/17

Research Keywords

Self-assembly
gold nanorods
plasmonics
3D superlattice

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@inproceedings{301cd759c9f441eb8a5cf5c590e2bb21,

title = "Evaporative self-assembly of gold nanorods into macroscopic 3D plasmonic superlattice arrays for SERS detection",

abstract = "The buildup of 3D superlattice with collective electro-optical properties by ordered self-assembly of nanoparticles has become the cutting-edge technology in the research field of nanomaterials [1]. Droplet evaporative self-assembly is a simple and effective technique is to build the superlattice structure. However, the well-known coffee-ring effect seriously hinders the ordered packing of the nanoparticles. A strategy to totally suppress or even reverse the coffee-ring effect is highly desirable in order to accomplish homogenous self-assembly of nanoparticles into a macroscopic structure [3]. ",

keywords = "Self-assembly, gold nanorods, plasmonics, 3D superlattice",

author = "Penghui Li and Xue-Feng Yu and Chu, {Paul K.}",

year = "2017",

month = oct,

language = "English",

pages = "240–241",

booktitle = "Program Book - 14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017)",

note = "14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017), PBII&D 2017 ; Conference date: 17-10-2017 Through 20-10-2017",

}

Li, P, Yu, X-F & Chu, PK 2017, Evaporative self-assembly of gold nanorods into macroscopic 3D plasmonic superlattice arrays for SERS detection. in Program Book - 14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017). pp. 240–241, 14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017), Shanghai, China, 17/10/17.

Evaporative self-assembly of gold nanorods into macroscopic 3D plasmonic superlattice arrays for SERS detection. / Li, Penghui; Yu, Xue-Feng; Chu, Paul K.
Program Book - 14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017). 2017. p. 240–241.

Research output: Chapters, Conference Papers, Creative and Literary Works › RGC 32 - Refereed conference paper (with host publication) › peer-review

TY - GEN

T1 - Evaporative self-assembly of gold nanorods into macroscopic 3D plasmonic superlattice arrays for SERS detection

AU - Li, Penghui

AU - Yu, Xue-Feng

AU - Chu, Paul K.

PY - 2017/10

Y1 - 2017/10

N2 - The buildup of 3D superlattice with collective electro-optical properties by ordered self-assembly of nanoparticles has become the cutting-edge technology in the research field of nanomaterials [1]. Droplet evaporative self-assembly is a simple and effective technique is to build the superlattice structure. However, the well-known coffee-ring effect seriously hinders the ordered packing of the nanoparticles. A strategy to totally suppress or even reverse the coffee-ring effect is highly desirable in order to accomplish homogenous self-assembly of nanoparticles into a macroscopic structure [3].

AB - The buildup of 3D superlattice with collective electro-optical properties by ordered self-assembly of nanoparticles has become the cutting-edge technology in the research field of nanomaterials [1]. Droplet evaporative self-assembly is a simple and effective technique is to build the superlattice structure. However, the well-known coffee-ring effect seriously hinders the ordered packing of the nanoparticles. A strategy to totally suppress or even reverse the coffee-ring effect is highly desirable in order to accomplish homogenous self-assembly of nanoparticles into a macroscopic structure [3].

KW - Self-assembly

KW - gold nanorods

KW - plasmonics

KW - 3D superlattice

M3 - RGC 32 - Refereed conference paper (with host publication)

SP - 240

EP - 241

BT - Program Book - 14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017)

T2 - 14th International Conference on Plasma Based Ion Implantation & Deposition (PBII&D 2017)

Y2 - 17 October 2017 through 20 October 2017

ER -

Evaporative self-assembly of gold nanorods into macroscopic 3D plasmonic superlattice arrays for SERS detection

Abstract

Conference

Research Keywords

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