Issue 11, 2016

Hybrid nanostructures of metal/two-dimensional nanomaterials for plasmon-enhanced applications

Abstract

Hybrid nanostructures composed of graphene or other two-dimensional (2D) nanomaterials and plasmonic metal components have been extensively studied. The unusual properties of 2D materials are associated with their atomically thin thickness and 2D morphology, and many impressive structures enable the metal nanomaterials to establish various interesting hybrid nanostructures with outstanding plasmonic properties. In addition, the hybrid nanostructures display unique optical characteristics that are derived from the close conjunction of plasmonic optical effects and the unique physicochemical properties of 2D materials. More importantly, the hybrid nanostructures show several plasmonic electrical effects including an improved photogeneration rate, efficient carrier transfer, and a plasmon-induced “hot carrier”, playing a significant role in enhancing device performance. They have been widely studied for plasmon-enhanced optical signals, photocatalysis, photodetectors (PDs), and solar cells. In this review, the developments in the field of metal/2D hybrid nanostructures are comprehensively described. Preparation of hybrid nanostructures is first presented according to the 2D material type, as well as the metal nanomaterial morphology. The plasmonic properties and the enabled applications of the hybrid nanostructures are then described. Lastly, possible future research in this promising field is discussed.

Graphical abstract: Hybrid nanostructures of metal/two-dimensional nanomaterials for plasmon-enhanced applications

Associated articles

Article information

Article type
Review Article
Submitted
09 Mar 2016
First published
06 Apr 2016
This article is Open Access
Creative Commons BY license

Chem. Soc. Rev., 2016,45, 3145-3187

Hybrid nanostructures of metal/two-dimensional nanomaterials for plasmon-enhanced applications

X. Li, J. Zhu and B. Wei, Chem. Soc. Rev., 2016, 45, 3145 DOI: 10.1039/C6CS00195E

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