AI Article Synopsis
- Plasmene is introduced as a new type of material similar to graphene, consisting of one-particle-thick sheets made from nanoparticles, which could have various applications in research.
- Researchers developed a method to create large plasmene nanosheets that are about 40 nm thick and up to 3 mm wide, allowing for a very high aspect ratio of around 75,000.
- These giant nanosheets can be manipulated through techniques like top-down lithography to create nanoribbons and folded structures, and they exhibit unique properties related to plasmon propagation, making them a significant advancement in the field.
Article Abstract
We introduce Plasmene- in analogy to graphene-as free-standing, 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.
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| http://dx.doi.org/10.1021/nn504615a | DOI Listing |
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Giant plasmene nanosheets, nanoribbons, and origami.
ACS Nano
November 2014
Department of Chemical Engineering, Faculty of Engineering, Monash University, Clayton 3800, Victoria, Australia.
Article Synopsis
- Plasmene is introduced as a new type of material similar to graphene, consisting of one-particle-thick sheets made from nanoparticles, which could have various applications in research.
- Researchers developed a method to create large plasmene nanosheets that are about 40 nm thick and up to 3 mm wide, allowing for a very high aspect ratio of around 75,000.
- These giant nanosheets can be manipulated through techniques like top-down lithography to create nanoribbons and folded structures, and they exhibit unique properties related to plasmon propagation, making them a significant advancement in the field.
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