Ji‐Na Hao scite author profile

1‐Hydroxypyrene (1‐HP), which is a biomarker of polycyclic aromatic hydrocarbons (PAHs) carcinogens and represents the internal dose of PAHs exposure in the human body, is detected by a newly designed luminescent Eu‐functionalized metal‐organic framework (1a) sensor. The luminescence of 1a can be effectively quenched by 1‐HP via a fluorescent resonant energy transfer process, thus achieving its recognition of 1‐HP. This is the first use of lanthanide metal‐organic frameworks (Ln‐MOFs) as chemical sensors for 1‐HP. The probe exhibits outstanding performances for sensing 1‐HP, such as high selectivity, excellent sensitivity, fast response, and good reusability. Importantly, the sensing system enables the detection of 1‐HP in real human urine specimens, and a portable 1‐HP urine test paper is also developed. Hence, the reported 1‐HP sensing platform has promising application potential for clinical diagnosis of the intoxication level of PAHs.

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A water-stable lanthanide-functionalized MOF as a highly selective and sensitive fluorescent probe for Cd²⁺

Hao

2015

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A Double‐Stimuli‐Responsive Fluorescent Center for Monitoring of Food Spoilage based on Dye Covalently Modified EuMOFs: From Sensory Hydrogels to Logic Devices

et al. 2017

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Unsafe food is a huge threat to human health and the economy, and detecting food spoilage early is an ongoing and imperative need. Herein, a simple and effective strategy combining a fluorescence sensor and one-to-two logic operation is designed for monitoring biogenic amines, indicators of food spoilage. Sensors (methyl red@lanthanide metal-organic frameworks (MR@EuMOFs)) are created by covalently modifying MR into NH -rich EuMOFs, which have a high quantum yield (48%). A double-stimuli-responsive fluorescence center is produced via energy transfer from the ligands to Eu and MR. Portable sensory hydrogels are obtained by dispersing and solidifying MR@EuMOFs in water-phase sodium salt of carboxy methyl cellulose (CMC-Na). The hydrogels exhibit a color transition upon "smelling" histamine (HI) vapor. This transition and shift in the MR-based emission peak are closely related to the HI concentration. Using the HI concentration as the input signal and the two fluorescence emissions as output signals, an advanced analytical device based on a one-to-two logic gate is constructed. The four output combinations, NOT (0, 1), YES (1, 0), PASS 1 (1, 1), and PASS 0 (0, 0), allow the direct analysis of HI levels, which can be used for real-time food-freshness evaluation. The novel strategy suggested here may be a new application for a molecular logic system in the sensing field.

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Amino-decorated lanthanide(iii) organic extended frameworks for multi-color luminescence and fluorescence sensing

2014

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Ji‐Na Hao

Determination of Urinary 1‐Hydroxypyrene for Biomonitoring of Human Exposure to Polycyclic Aromatic Hydrocarbons Carcinogens by a Lanthanide‐functionalized Metal‐Organic Framework Sensor

A water-stable lanthanide-functionalized MOF as a highly selective and sensitive fluorescent probe for Cd²⁺

A Double‐Stimuli‐Responsive Fluorescent Center for Monitoring of Food Spoilage based on Dye Covalently Modified EuMOFs: From Sensory Hydrogels to Logic Devices

Amino-decorated lanthanide(iii) organic extended frameworks for multi-color luminescence and fluorescence sensing

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Ji‐Na Hao

Determination of Urinary 1‐Hydroxypyrene for Biomonitoring of Human Exposure to Polycyclic Aromatic Hydrocarbons Carcinogens by a Lanthanide‐functionalized Metal‐Organic Framework Sensor

A water-stable lanthanide-functionalized MOF as a highly selective and sensitive fluorescent probe for Cd2+

A Double‐Stimuli‐Responsive Fluorescent Center for Monitoring of Food Spoilage based on Dye Covalently Modified EuMOFs: From Sensory Hydrogels to Logic Devices

Amino-decorated lanthanide(iii) organic extended frameworks for multi-color luminescence and fluorescence sensing

Contact Info

Product

Resources

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A water-stable lanthanide-functionalized MOF as a highly selective and sensitive fluorescent probe for Cd²⁺