Barun Kumar Barman
(National Institute for Materials Science
)
;
David Hernández-Pinilla
;
Thang Duy Dao
;
Kenzo Deguchi
(National Institute for Materials Science)
;
Shinobu Ohki
(National Institute for Materials Science)
;
Kenjiro Hashi
(National Institute for Materials Science)
;
Atsushi Goto
(National Institute for Materials Science)
;
Tsuyoshi Miyazaki
(National Institute for Materials Science)
;
Karuna Kar Nanda
;
Tadaaki Nagao
(National Institute for Materials Science)
Collection
Citation
Description:
(abstract)Light-element-based fluorescent materials, colloidal graphene quantum dots, and carbon dots (CDs) have sparked an immense amount of scientific interest in the past decade. However, a significant challenge in practical applications has emerged concerning the development of solid-state fluorescence (SSF) materials. This study addresses this knowledge gap by exploring the unexplored photonic facets of C-based solid-state microphotonic emitters. The proposed synthesis approach focuses on carbonized polymer microspheres (CPMs) instead of conventional nanodots. These microspheres exhibit remarkable SSF spanning the entire visible spectrum from blue to red. The highly spherical shape of CPMs imparts built-in photonic properties in addition to its intrinsic CD-based attributes. Leveraging their excitation-dependent photoluminescence property, these microspheres exhibit amplified spontaneous emission, assisted by the whispering gallery mode resonance across the visible spectral region. Remarkably, unlike conventional semiconductor quantum dots or dye-doped microresonators, this single microstructure showcases adaptable resonant emission without structural/chemical modifications. This distinctive attribute enables a plethora of applications, including microcavity-assisted energy transfer for white light emission, highly sensitive chemical sensing, and secure encrypted anticounterfeiting measures. This interdisciplinary approach, integrating photonics and chemistry, provides a robust solution for light-element-based SSF with inherent photonic functionality and wide-ranging applications.
Rights:
-
In Copyright
This document is the Accepted Manuscript version of a Published Work that appeared in final form in Bioinspired Carbonized Polymer Microspheres for Full-Color Whispering Gallery Mode Emission for White Light Emission, Unclonable Anticounterfeiting, and Chemical Sensing Applications, copyright © 2024 American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acsami.3c18035
Keyword: carbon dots, carbonized polymer microsphere, energy transfer, white-light emission, anti-counterfeiting
Date published: 2024-05-01
Publisher: American Chemical Society (ACS)
Journal:
- ACS Applied Materials & Interfaces (ISSN: 19448244) vol. 16 issue. 17 p. 22312-22325
Funding:
- JSPS 16H0636 (ナノフォトニック共振構造とメタルフリーカーボンナノドットによる強結合型発光素子)
Manuscript type: Author's version (Accepted manuscript)
MDR DOI:
First published URL: https://doi.org/10.1021/acsami.3c18035
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Other identifier(s):
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Updated at: 2024-07-04 10:28:22 +0900
Published on MDR: 2025-05-01 08:21:08 +0900
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