4.6 Article

Blue, Yellow, and Red Carbon Dots from Aromatic Precursors for Light-Emitting Diodes

Journal

MOLECULES
Volume 28, Issue 7, Pages -

Publisher

MDPI
DOI: 10.3390/molecules28072957

Keywords

carbon dots; multicolor emission; fluorescence mechanism; light-emitting diodes

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Multicolor fluorescent carbon dots (CDs) with red, yellow, and blue emissions were prepared using aromatic precursors with different amounts of benzene rings through solvothermal method. The prepared CDs had spherical shape, small size (<10 nm), rich surface functional groups, and good stability. By mixing the CDs with PVA matrix, transparent and flexible films were produced and LEDs with bright blue, yellow, and red light were successfully manufactured. The synthesized CDs show potential application in multi-color monitors as a promising candidate for LEDs.
In this work, multicolor fluorescent carbon dots with red (R-CDs), yellow (Y-CDs), and blue (B-CDs) emissions were prepared by choosing proper aromatic precursors with different amounts of benzene rings through a simple solvothermal method. The characterization showed that the prepared carbon dots were spherical with a size under 10 nm, rich surface functional groups, and good stability. The emission wavelengths were located at 440, 530, and 580 nm under the excitation of 370 nm. The relative fluorescence quantum yield (QY) of R-CDs, Y-CDs, and B-CDs was 11%, 59%, and 33%, respectively. The related characterization demonstrated that the redshift in the photoluminescence was caused by the synergistic effect of the increasing graphitic nitrogen content, quantum size effect and surface oxidation state. By mixing the three prepared CDs into a PVA matrix, the transparent and flexible films produced relucent blue, yellow, and red emissions under 365 nm UV light, and solid-state quenching was effectively avoided. LEDs were fabricated by using B-CDs, Y-CDs, and R-CDs/PVA with a semiconductor chip. These CDs-based LEDs produced bright blue, yellow, and red light with CIE color coordinates of (0.16, 0.02), (0.38, 0.58), and (0.50, 0.49) were successfully manufactured utilizing the prepared blue, yellow and red multicolor carbon dots as the solid luminescent materials. The results showed that the synthesized CDs can be potentially applied in multi-color monitors as a promising candidate for light-emitting diodes (LEDs). This work blazes a novel trail for the controllable preparation of multicolor fluorescent carbon dots.

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