Controlled self-assembly of plasmon-based photonic nanocrystals for high performance photonic technologies

Yadav，Ashish1,2,8,10; Burak，Gerislioglu3; Ahmadivand，Arash4; Kaushik，Ajeet5; Cheng，Gary J.6,7; Ouyang，Zhengbiao2; Wang，Qing8; Yadav，Vikram Singh12; Mishra，Yogendra Kumar9; Wu，Yongling2; Liu，Yanjun10; RamaKrishna，Seeram11

2021-04-01

10.1016/j.nantod.2020.101072

Nano Today   影响因子和分区

1748-0132

1878-044X

The self-assembled plasmonic nano-enabled photonic crystals (PCs)have been studied as promising platforms to develop next-generation photonic and opto-electronic devices. In this review, we attempt to describe the fundamentals of self-assembled colloidal plasmonic nanostructures and various applications of such devices. Different important aspects, such as interaction between metal NPs (MNPs) and non-metal 3-D crystals, effect of NPs on the spectral properties of materials, the mechanism of plasmonic based PCs, and related challenges and their possible solutions have been demonstrated crucially. The advancements in the self-assembly based plasmonic PCs and their applications are discussed carefully. We believe that nano-enabled self-assembled plasmonic crystals are better candidates of nanostructures to advance photonic technologies with reduced form factor and high performance.

3-D photonic crystals Opto-electronic devices Plasmonic nanostructures Self-assembled photonic crystals

SCI ; EI

英语

其他

WOS:000637809700010

20210409818305

Nanostructures ; Optoelectronic devices ; Self assembly ; Sols

Optical Devices and Systems:741.3 ; Nanotechnology:761 ; Chemical Products Generally:804 ; Solid State Physics:933 ; Materials Science:951

2-s2.0-85099612056

Scopus

1.Center for Advanced Laser Manufacturing (CALM),Shandong University of Technology,Zibo,255000,China
2.THz Technical Research Center of Shenzhen University,College of Electronic Science and Technology,Shenzhen University,Shenzhen,518060,China
3.Department of Physics and Astronomy,Rice University,Houston,6100 Main St.,77005,United States
4.Metamaterial Technologies Inc,Pleasanton,94588,United States
5.Department of Natural Sciences,Division of Sciences,Art & Mathematics,Florida Polytechnic University,Lakeland,4700 Research Way,33805,United States
6.School of Industrial Engineering,Purdue University,West Lafayette,315 N. Grant St.,47907,United States
7.Birck Nanotechnology Center,Purdue University,West Lafayette,1205 W State St.,47907,United States
8.Institute of NanoEngineering Shandong University of Science and Technology,Qingdao,579 Qianwangang Road,266590,China
9.Mads Clausen Institute,NanoSYD,Sønderborg,University of Southern Denmark, Alsion 2,DK‐6400,Denmark
10.Department of Electrical and Electronic Engineering,Southern University of Science and Technology,Shenzhen,518055,China
11.Nanoscience and Nanotechnology Initiative,National University of Singapore,10 Kent Ridge Crescent,119260,Singapore
12.Department of Applied Sciences,Bundelkhand Institute of Engineering and Technology,Jhansi,India

Yadav，Ashish,Burak，Gerislioglu,Ahmadivand，Arash,et al. Controlled self-assembly of plasmon-based photonic nanocrystals for high performance photonic technologies[J]. Nano Today,2021,37.

Yadav，Ashish.,Burak，Gerislioglu.,Ahmadivand，Arash.,Kaushik，Ajeet.,Cheng，Gary J..,...&RamaKrishna，Seeram.(2021).Controlled self-assembly of plasmon-based photonic nanocrystals for high performance photonic technologies.Nano Today,37.

Yadav，Ashish,et al."Controlled self-assembly of plasmon-based photonic nanocrystals for high performance photonic technologies".Nano Today 37(2021).