Tiankai Sun scite author profile

Fabricating heterojunction photocatalysts for H2 production is promising for the development of clean energy. For boosting the photocatalytic activity, modulating the heterojunction interface can facilitate the electron–hole separation and solar energy utilization, but it is highly challenging in synthesis. In this work, by facilely exfoliating the bulk C3N5, ultrathin C3N5 nanosheets (N-CN) with large surface area, improved light absorption, and efficient charge transport were synthesized and further applied to the construction of NH2-UiO-66/N-CN heterojunctions. The optimized NH2-UiO-66/N-CN-2 exhibits high hydrogen evolution rate and cycling stability with Pt as the cocatalyst. Combined with the experimental results, the density functional theory calculation reveals that the high photocatalytic performance is attributed to the promoted photogenerated carrier transfer by the formation of well-contacted and stable Z-scheme heterojunction interface. This contribution renders an insight into the modulation of the heterojunction interface for enhancing the activity of MOF-based photocatalysts.

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A Europium–Organic Framework Sensing Material for 2-Aminoacetophenone, a Bacterial Biomarker in Water

Guo

Han

Min

et al. 2021

Inorg. Chem.

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2-Aminoacetophenone (2-AA) is a metabolite produced in large quantities by the pathogenic bacteria Pseudomonas aeruginosa (PA), which is a biomarker for PA in water. State-of-the-art analytical techniques to detect PA usually require expensive instruments and a long analysis time which are not suitable for real-time water quality monitoring, especially for high-quality drinking water. Herein, we reported the application of a europium metal–organic framework (Eu-MOF) as a luminescent sensing material, which provides a facile, environmentally friendly and low-cost way for the fast detection of PA in water. Eu-MOF shows a high sensitivity toward 2-AA with a K SV value of 3.563 × 104 M–1, rapid luminescence response in 12 s and high-selectivity and anti-interference ability with the existence of common detection indexes in drinking water owing to the good match of the energy levels of Eu-MOF and 2-AA. A systematical optimization of the sensing conditions to enhance the sensing function of Eu-MOF for 2-AA was discussed in detail, to give fundamentals for the rational design of MOF-based sensing materials.

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Tailoring chirality and porosity in metal-organic frameworks for efficient enantioselective recognition

Han

Wang

et al. 2023

Chem

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Fast Detection of Entacapone by a Lanthanide–Organic Framework with Rhombic Channels

Min

Han

et al. 2021

Chemistry A European J

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Entacapone (ENT) is a powerful catechol-O-methyl transferase inhibitor that is used for the diagnosis and treatment of Parkinson's syndrome, but the amount used must be well controlled to avoid overtreatment and side effect. Fast and selective detection of ENT needs wellmatched energy levels and well-designed sensor-ENT interaction which is highly challenging. In this work, a water stable europium-based metal-organic framework (Eu-TDA) was synthesized to detect ENT by luminescence with excellent reusability and selectivity in the presence of main coexisting and interference species of plasma with a limit of detection of 5.01 μM. The experimental results showed that the luminescence of Eu-TDA can be effectively quenched by ENT via welldesigned photoinduced electron transfer mechanism and internal filtration effect mechanism in the system.

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Cage-Based Metal–Organic Framework as an Artificial Energy Receptor for Highly Sensitive Detection of Serotonin

et al. 2023

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Artificial synthetic receptors toward functional biomolecules can serve as models to provide insights into understanding the high binding affinity of biological receptors to biomolecules for revealing their law of life activities. The exploration of serotonin receptors, which can guide drug design or count as diagnostic reagents for patients with carcinoid tumors, is of great value for clinical medicine but is highly challenging due to complex biological analysis. Herein, we report a cage-based metal–organic framework (NKU-67-Eu) as an artificial chemical receptor with well-matched energy levels for serotonin. The energy transfer back from the analyte to the framework enables NKU-67-Eu to recognize serotonin with excellent neurotransmitter selectivity in human plasma and an ultra-low limit of detection of 36 nM. Point-of-care visual detection is further realized by the colorimetry change of NKU-67-Eu toward serotonin with a smartphone camera.

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Tiankai Sun

Modulation of Z-Scheme Heterojunction Interface between Ultrathin C₃N₅ Nanosheets and Metal–Organic Framework for Boosting Photocatalysis

A Europium–Organic Framework Sensing Material for 2-Aminoacetophenone, a Bacterial Biomarker in Water

Tailoring chirality and porosity in metal-organic frameworks for efficient enantioselective recognition

Fast Detection of Entacapone by a Lanthanide–Organic Framework with Rhombic Channels

Cage-Based Metal–Organic Framework as an Artificial Energy Receptor for Highly Sensitive Detection of Serotonin

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Tiankai Sun

Modulation of Z-Scheme Heterojunction Interface between Ultrathin C3N5 Nanosheets and Metal–Organic Framework for Boosting Photocatalysis

A Europium–Organic Framework Sensing Material for 2-Aminoacetophenone, a Bacterial Biomarker in Water

Tailoring chirality and porosity in metal-organic frameworks for efficient enantioselective recognition

Fast Detection of Entacapone by a Lanthanide–Organic Framework with Rhombic Channels

Cage-Based Metal–Organic Framework as an Artificial Energy Receptor for Highly Sensitive Detection of Serotonin

Contact Info

Product

Resources

About

Modulation of Z-Scheme Heterojunction Interface between Ultrathin C₃N₅ Nanosheets and Metal–Organic Framework for Boosting Photocatalysis