1. A novel coumarin based molecular switch for the sequential detection of Al3+ and F−: Application in lung cancer live cell imaging and construction of logic gate.
- Author
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Sarkar, Deblina, Ghosh, Paramita, Gharami, Saswati, Mondal, Tapan Kumar, and Murmu, Nabendu
- Subjects
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COUMARINS , *MOLECULAR switches , *LUNG cancer , *ALUMINUM , *METAL ions , *LOGIC circuits - Abstract
A highly sensitive and selective coumarin based chemosensor H 2 L for the efficient detection of Al 3+ has been developed. The synthesized chemosensor H 2 L is efficient in detecting Al 3+ over other metal ions which are commonly obtained in various physiological and environmental samples. H 2 L shows fluorescence ‘turn-on’ response at 610 nm in presence of Al 3+ , without the interference of other metal ions. The resulting H 2 L-Al 3+ complex behave as a sequential chemosensor for F − , by showing quenching of emission intensity upon addition of F − to it. This quenching of emission intensity is only specific for F − and is not hampered due to the presence of other anions that commonly coexist with F − in various environmental solutions. Theoretical calculations using DFT/B3LYP method has been used to get insight into the sensing mechanism as well as electronic structure of the synthesized chemosensor H 2 L. H 2 L is efficient in detecting Al 3+ in the intracellular region of human A549 cell and also exhibits an INHIBIT logic gate with Al 3+ and F − as chemical inputs by monitoring the emission mode at 610 nm. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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