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Literature DB >> 26890027

From 1D to 3D: Tunable Sub-10 nm Gaps in Large Area Devices.

Ziwei Zhou¹, Zhiyuan Zhao^1,2, Ye Yu^1,3, Bin Ai¹, Helmuth Möhwald⁴, Ryan C Chiechi², Joel K W Yang³, Gang Zhang¹.

Abstract

Tunable sub-10 nm 1D nanogaps are fabricated based on nanoskiving. The electric field in different sized nanogaps is investigated theoretically and experimentally, yielding nonmonotonic dependence and an optimized gap-width (5 nm). 2D nanogap arrays are fabricated to pack denser gaps combining surface patterning techniques. Innovatively, 3D multistory nanogaps are built via a stacking procedure, processing higher integration, and much improved electric field.

Keywords: 3D nanostructures; nanogaps; nanoskiving; surface plasmon; surface-enhanced Raman spectroscopy

Year: 2016 PMID： 26890027 DOI： 10.1002/adma.201505929

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

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Cited

3 in total

From 1D to 3D: Tunable Sub-10 nm Gaps in Large Area Devices.

1. Optical modulation of nano-gap tunnelling junctions comprising self-assembled monolayers of hemicyanine dyes.

Review 2. Plasmonic-perovskite solar cells, light emitters, and sensors.

3. Biologically-Inspired Water-Swelling-Driven Fabrication of Centimeter-Level Metallic Nanogaps.