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Engineering Diformyl Diaryldipyrromethane into a Molecular Keypad Lock

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dc.contributor.author Sreedevi, KCG
dc.contributor.author Thomas, AP
dc.contributor.author Adinarayana, B
dc.contributor.author Srinivasan, A
dc.date.accessioned 2021-05-14T08:38:02Z
dc.date.available 2021-05-14T08:38:02Z
dc.date.issued 2020
dc.identifier.citation New Journal of Chemistry;44(27): 11768-11776. en_US
dc.identifier.uri https://doi.org/10.1039/d0nj01963a
dc.identifier.uri http://hdl.handle.net/123456789/3770
dc.description.abstract Sensor materials that undergo a change in fluorescence behaviour upon binding with cations and anions are one of the most widely used analytical tools and they can be used for various molecular switches and logic gates. Here, we have designed a photolabile chemosensor for both anions and cations by using a simple acyclic molecule, diformyl diaryldipyrromethane, and integrated it as a molecular keypad lock system. The molecular keypad lock works with respect to three inputs, with UV irradiation as input 1, where diformyl diaryldipyrromethane undergoes a photoenolization process to generate the dienol with intense green fluorescence. Further, the addition of anions such as F(-)or CN-(input 2) promotes deprotonation to yield the corresponding mono and dianions followed by emission changes from green to red and yellow, respectively. The generated dianions can effectively complex with Zn(2+)ions to result in \”turn on\” fluorescence at 444 nm (yellow to blue) and thus Zn(2+)ions are used as input 3. The output signal (lambda(em)= 444 nm) depends not only on the proper combination but also on the correct sequence of input signals,i.e., UV, F-(or CN-) and finally Zn(2+)ions, mimicking a keypad. en_US
dc.language.iso en en_US
dc.publisher Royal Society of Chemistry en_US
dc.subject excimer formation en_US
dc.subject proton-transfer en_US
dc.subject fluorescence en_US
dc.subject sensor en_US
dc.subject recognition en_US
dc.subject anions en_US
dc.subject titanium en_US
dc.title Engineering Diformyl Diaryldipyrromethane into a Molecular Keypad Lock en_US
dc.type Article en_US


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  • 2020
    Research articles authored by NIIST researchers published in 2020

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