Functionalization of Hydrophilic and Amphiphilic Carbon Dots with Polyethylene Glycol for Electroluminescent Devices

Mikhail D. Miruschenko; Kseniia D. Kosolapova; Ivan A. Aleinik; Lyubov’ N. Borodina; Anna A. Vedernikova; Anastasiia V. Sokolova; Maria A. Sandzhieva; Aleksandr M. Mitroshin; Alexander V. Yakimansky; Aleksandra V. Koroleva; Evgeniy V. Zhizhin; Sergei A. Cherevkov; Michal Langer; Michal Otyepka; Elena V. Ushakova; Andrey L. Rogach

doi:10.1002/sstr.202400528

Small Structures (Mar 2025)

Functionalization of Hydrophilic and Amphiphilic Carbon Dots with Polyethylene Glycol for Electroluminescent Devices

Mikhail D. Miruschenko,
Kseniia D. Kosolapova,
Ivan A. Aleinik,
Lyubov’ N. Borodina,
Anna A. Vedernikova,
Anastasiia V. Sokolova,
Maria A. Sandzhieva,
Aleksandr M. Mitroshin,
Alexander V. Yakimansky,
Aleksandra V. Koroleva,
Evgeniy V. Zhizhin,
Sergei A. Cherevkov,
Michal Langer,
Michal Otyepka,
Elena V. Ushakova,
Andrey L. Rogach

Affiliations

Mikhail D. Miruschenko: PhysNano Department ITMO University Saint Petersburg 197101 Russia
Kseniia D. Kosolapova: Division of Physical Sciences and Engineering King Abdullah University of Science and Technology (KAUST) Thuwal 23955‐6900 Saudi Arabia
Ivan A. Aleinik: PhysNano Department ITMO University Saint Petersburg 197101 Russia
Lyubov’ N. Borodina: PhysNano Department ITMO University Saint Petersburg 197101 Russia
Anna A. Vedernikova: PhysNano Department ITMO University Saint Petersburg 197101 Russia
Anastasiia V. Sokolova: Department of Materials Science and Engineering, and Centre for Functional Photonics (CFP) City University of Hong Kong 88 Tat Chee Avenue Kowloon Hong Kong SAR 999077 P. R. China
Maria A. Sandzhieva: School of Physics and Engineering ITMO University Saint Petersburg 197101 Russia
Aleksandr M. Mitroshin: PhysNano Department ITMO University Saint Petersburg 197101 Russia
Alexander V. Yakimansky: Institute of Macromolecular Compounds Russian Academy of Sciences Saint Petersburg 199004 Russia
Aleksandra V. Koroleva: Research Park Saint Petersburg State University Saint Petersburg 199034 Russia
Evgeniy V. Zhizhin: Research Park Saint Petersburg State University Saint Petersburg 199034 Russia
Sergei A. Cherevkov: PhysNano Department ITMO University Saint Petersburg 197101 Russia
Michal Langer: IT4Innovations VSB – Technical University of Ostrava 17. listopadu 2172/15 Ostrava‐Poruba 70800 Czechia
Michal Otyepka: IT4Innovations VSB – Technical University of Ostrava 17. listopadu 2172/15 Ostrava‐Poruba 70800 Czechia
Elena V. Ushakova: PhysNano Department ITMO University Saint Petersburg 197101 Russia
Andrey L. Rogach: Department of Materials Science and Engineering, and Centre for Functional Photonics (CFP) City University of Hong Kong 88 Tat Chee Avenue Kowloon Hong Kong SAR 999077 P. R. China

DOI: https://doi.org/10.1002/sstr.202400528
Journal volume & issue: Vol. 6, no. 3
pp. n/a – n/a

Abstract

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Carbon dots (CDs) are fluorescent carbon nanomaterials that are considered for applications in optoelectronics, sensorics, and biofields due to their low‐cost and robust synthesis, and versatile optical properties. Herein, it is demonstrated how chemical functionalization of hydrophilic or amphiphilic CDs with polyethylene glycol influences their energy level structure and hence the emission properties. Functionalization of CDs with polyethylene glycol results in an increase in emission quantum yield: from 30% to 75% for hydrophilic CDs and from 20% to 25% for amphiphilic CDs. The estimated absolute values of energy levels, including the highest occupied molecular orbital and the lowest unoccupied molecular orbital energies, are dependent on chemical composition and size of CDs. Moreover, polyethylene glycol‐functionalized CD can form good quality films based on their composite with polyvinylcarbazole (PVK), that together with intense emission is crucial for light‐emitting diode (LED) fabrication. By studying spectral properties of fabricated CD‐LEDs, it is shown that their electroluminescence (EL) originates from mixed energy levels of CD and PVK in the composite, resulting in the shifting of the EL maximum from blue to green during several seconds of LED operation. The optimized CD‐LEDs show brightness up to 2600 cd m−2.

Published in Small Structures

ISSN: 2688-4062 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Science: Physics; Science: Chemistry
Website: https://onlinelibrary.wiley.com/journal/26884062

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