A highly selective diarylethene fluorescence sensor of aluminum ion and its application

“…A highly selective diarylethene derivative sensor with the unit of N-(2-(hydrazinecarbonyl)phenyl)benzamide (L14) was reported. [60] The probe demonstrated exceptional photochromism and specific fluorescent recognition for aluminum, with emission intensity enhancement of 100-fold at 533 nm, and color change from dark to Aqua green. Other metal ions had no significant effect on its fluorescence.…”

Schiff Bases and Multidentate Organic Compounds as Fluorescent Sensors of Al³⁺: Photophysical, Fluorescent Bioimaging and the Mechanisms

“…A highly selective diarylethene derivative sensor with the unit of N-(2-(hydrazinecarbonyl)phenyl)benzamide (L14) was reported. [60] The probe demonstrated exceptional photochromism and specific fluorescent recognition for aluminum, with emission intensity enhancement of 100-fold at 533 nm, and color change from dark to Aqua green. Other metal ions had no significant effect on its fluorescence.…”

Schiff Bases and Multidentate Organic Compounds as Fluorescent Sensors of Al³⁺: Photophysical, Fluorescent Bioimaging and the Mechanisms

“…[130][131][132][133][134][135][136][137] This non-essential metal ion is found to have a determinant effect on biological and environmental systems. [138][139][140][141][142][143][144][145] Studies have found that the excess presence of Al 3 + leads to various neurological disorders like dementia, Alzheimer's disease, and Parkinson's disease. [146][147][148][149][150] Whereas, its high concentration in soil has a detrimental effect on plant growth and affects its productivity.…”

1,8‐Naphthalimide‐Based Chemosensors: A Promising Strategy for Detection of Metal Ions in Environmental and Biological Systems

Development of a water-soluble fluorescent Al3+ probe based on phenylsulfonyl-2-pyrone in biological systems