Intermolecular naphthylamine cyclization–based synthesis of bandgap-modulated carbon dots for multicolor light-emitting diodesIntermolecular naphthylamine cyclization-based synthesis of bandgap-modulated carbon dots for multicolor light-emitting diodes
- Other Titles
- Intermolecular naphthylamine cyclization-based synthesis of bandgap-modulated carbon dots for multicolor light-emitting diodes
- Authors
- Park, Sehyeon; Lee, Su Hwan; Kim, Yujin; Park, Hyeonjin; Kim, Gui-Min; Kim, Young-Hoon; Kwon, Woosung
- Issue Date
- Feb-2025
- Publisher
- Elsevier BV
- Keywords
- Carbon dot; Dual emission; Electronic transition; Light-emitting diode; Nitrogen doping
- Citation
- Optical Materials, v.159, pp 1 - 10
- Pages
- 10
- Indexed
- SCIE
SCOPUS
- Journal Title
- Optical Materials
- Volume
- 159
- Start Page
- 1
- End Page
- 10
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/206590
- DOI
- 10.1016/j.optmat.2024.116313
- ISSN
- 0925-3467
1873-1252
- Abstract
- Owing to their tunable optical properties, N-doped carbon dots (CDs) have a broad scope of optoelectronic applications. However, the difficulty of precisely controlling nitrogen incorporation limits our understanding of its impact on CD electronic structure and emission behavior. To address this gap, N-doped CDs with tunable bandgaps are herein synthesized via the solvothermal carbonization of 1-naphthylamine in the presence of a controlled amount of nitric acid to obtain single-source emitters with two distinct emission wavelengths. The amount of nitric acid determines the extent of nitrogen incorporation through the intermolecular cyclization of 1-naphthylamine and, hence, the proportions of pyrrolic/pyridinic N-heterocycles (red emission, ∼600 nm) and polycyclic aromatic hydrocarbons (blue emission, ∼400 nm). For a practical utility demonstration, the prepared N-doped CDs are used to fabricate high-color-purity multicolor light-emitting diodes. By establishing a correlation between nitrogen incorporation modes and photophysical properties, this study paves the way for the rational design of advanced N-doped CDs for next-generation optoelectronic devices.
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