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Self-assembled plasmonics for angle-independent structural color displays with actively addressed black states.


ABSTRACT: Nanostructured plasmonic materials can lead to the extremely compact pixels and color filters needed for next-generation displays by interacting with light at fundamentally small length scales. However, previous demonstrations suffer from severe angle sensitivity, lack of saturated color, and absence of black/gray states and/or are impractical to integrate with actively addressed electronics. Here, we report a vivid self-assembled nanostructured system which overcomes these challenges via the multidimensional hybridization of plasmonic resonances. By exploiting the thin-film growth mechanisms of aluminum during ultrahigh vacuum physical vapor deposition, dense arrays of particles are created in near-field proximity to a mirror. The sub-10-nm gaps between adjacent particles and mirror lead to strong multidimensional coupling of localized plasmonic modes, resulting in a singular resonance with negligible angular dispersion and ?98% absorption of incident light at a desired wavelength. The process is compatible with arbitrarily structured substrates and can produce wafer-scale, diffusive, angle-independent, and flexible plasmonic materials. We then demonstrate the unique capabilities of the strongly coupled plasmonic system via integration with an actively addressed reflective liquid crystal display with control over black states. The hybrid display is readily programmed to display images and video.

SUBMITTER: Franklin D 

PROVIDER: S-EPMC7306820 | biostudies-literature | 2020 Jun

REPOSITORIES: biostudies-literature

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Self-assembled plasmonics for angle-independent structural color displays with actively addressed black states.

Franklin Daniel D   He Ziqian Z   Mastranzo Ortega Pamela P   Safaei Alireza A   Cencillo-Abad Pablo P   Wu Shin-Tson ST   Chanda Debashis D  

Proceedings of the National Academy of Sciences of the United States of America 20200603 24


Nanostructured plasmonic materials can lead to the extremely compact pixels and color filters needed for next-generation displays by interacting with light at fundamentally small length scales. However, previous demonstrations suffer from severe angle sensitivity, lack of saturated color, and absence of black/gray states and/or are impractical to integrate with actively addressed electronics. Here, we report a vivid self-assembled nanostructured system which overcomes these challenges via the mu  ...[more]

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