Naiyun Liu scite author profile

The use of solar energy to produce molecular hydrogen and oxygen (H2 and O2) from overall water splitting is a promising means of renewable energy storage. In the past 40 years, various inorganic and organic systems have been developed as photocatalysts for water splitting driven by visible light. These photocatalysts, however, still suffer from low quantum efficiency and/or poor stability. We report the design and fabrication of a metal-free carbon nanodot-carbon nitride (C3N4) nanocomposite and demonstrate its impressive performance for photocatalytic solar water splitting. We measured quantum efficiencies of 16% for wavelength λ = 420 ± 20 nanometers, 6.29% for λ = 580 ± 15 nanometers, and 4.42% for λ = 600 ± 10 nanometers, and determined an overall solar energy conversion efficiency of 2.0%. The catalyst comprises low-cost, Earth-abundant, environmentally friendly materials and shows excellent stability.

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High-yield fabrication of Ti₃C₂T_x MXene quantum dots and their electrochemiluminescence behavior

Qin

et al. 2018

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Carbon Dots as Fillers Inducing Healing/Self‐Healing and Anticorrosion Properties in Polymers

et al. 2017

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Self-healing is the way by which nature repairs damage and prolongs the life of bio entities. A variety of practical applications require self-healing materials in general and self-healing polymers in particular. Different (complex) methods provide the rebonding of broken bonds, suppressing crack, or local damage propagation. Here, a simple, versatile, and cost-effective methodology is reported for initiating healing in bulk polymers and self-healing and anticorrosion properties in polymer coatings: introduction of carbon dots (CDs), 5 nm sized carbon nanocrystallites, into the polymer matrix forming a composite. The CDs are blended into polymethacrylate, polyurethane, and other common polymers. The healing/self-healing process is initiated by interfacial bonding (covalent, hydrogen, and van der Waals bonding) between the CDs and the polymer matrix and can be optimized by modifying the functional groups which terminate the CDs. The healing properties of the bulk polymer-CD composites are evaluated by comparing the tensile strength of pristine (bulk and coatings) composites to those of fractured composites that are healed and by following the self-healing of scratches intentionally introduced to polymer-CD composite coatings. The composite coatings not only possess self-healing properties but also have superior anticorrosion properties compared to those of the pure polymer coatings.

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Fluorescent N-doped carbon dots for both cellular imaging and highly-sensitive catechol detection

Kong

Liu

et al. 2015

Carbon

165

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One-step synthesis of chiral carbon quantum dots and their enantioselective recognition

Zhang

Sun

et al. 2016

RSC Adv.

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Naiyun Liu

Metal-free efficient photocatalyst for stable visible water splitting via a two-electron pathway

High-yield fabrication of Ti₃C₂T_x MXene quantum dots and their electrochemiluminescence behavior

Carbon Dots as Fillers Inducing Healing/Self‐Healing and Anticorrosion Properties in Polymers

Fluorescent N-doped carbon dots for both cellular imaging and highly-sensitive catechol detection

One-step synthesis of chiral carbon quantum dots and their enantioselective recognition

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Naiyun Liu

Metal-free efficient photocatalyst for stable visible water splitting via a two-electron pathway

High-yield fabrication of Ti3C2Tx MXene quantum dots and their electrochemiluminescence behavior

Carbon Dots as Fillers Inducing Healing/Self‐Healing and Anticorrosion Properties in Polymers

Fluorescent N-doped carbon dots for both cellular imaging and highly-sensitive catechol detection

One-step synthesis of chiral carbon quantum dots and their enantioselective recognition

Contact Info

Product

Resources

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High-yield fabrication of Ti₃C₂T_x MXene quantum dots and their electrochemiluminescence behavior