Li-Hua Mao scite author profile

Surface-passivated photoluminescent carbon dots (CDs) were prepared via a facile one-step pyrolysis of poly(acrylic acid) (PAA) in the presence of glycerol. In the formation process of CDs, glycerol not only acts as solvent, but also promotes the carbonization of PAA (carbon source) and passivates the surface of CDs. The as-prepared CDs can emit brightwhite fluorescence under ultraviolet (UV) illumination. The structure and optical properties of the CDs were thoroughly investigated. The CDs show excellent solubility in water and high photoluminescence stability in UV-radiation, salty, oxidic, or reductive environments, suggesting their great promise as white-light-emitting materials. For their practical applications, a white light-emitting diode (LED) with CDs as white-light converters was demonstrated. Moreover, a backlight with use of CDs as coatings was successfully constructed for the first time. This research would offer a promising new way to obtain white fluorescent CDs and suggests their strong potential for solid-state lighting systems.

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Versatile superhydrophobic and photocatalytic films generated from TiO₂–SiO₂@PDMS and their applications on fabrics

Deng

et al. 2014

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Synthesis of silica-based carbon dot/nanocrystal hybrids toward white LEDs

et al. 2014

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Li-Hua Mao

Hair-derived carbon dots toward versatile multidimensional fluorescent materials

Facile Access to White Fluorescent Carbon Dots toward Light-Emitting Devices

Versatile superhydrophobic and photocatalytic films generated from TiO₂–SiO₂@PDMS and their applications on fabrics

Synthesis of silica-based carbon dot/nanocrystal hybrids toward white LEDs

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Li-Hua Mao

Hair-derived carbon dots toward versatile multidimensional fluorescent materials

Facile Access to White Fluorescent Carbon Dots toward Light-Emitting Devices

Versatile superhydrophobic and photocatalytic films generated from TiO2–SiO2@PDMS and their applications on fabrics

Synthesis of silica-based carbon dot/nanocrystal hybrids toward white LEDs

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Product

Resources

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Versatile superhydrophobic and photocatalytic films generated from TiO₂–SiO₂@PDMS and their applications on fabrics