(A) Progressive Endeavor to Develop Efficient Organic Chromogenic and Fluorogenic Sensing Probes for Ionic and Neutral Guest

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dc.contributor.author Samanta, Soham
dc.date.accessioned 2017-08-10T06:49:17Z
dc.date.available 2017-08-10T06:49:17Z
dc.date.issued 2016
dc.identifier.other ROL NO.126122031
dc.identifier.uri http://gyan.iitg.ernet.in/handle/123456789/818
dc.description Supervisor: Gopal Das en_US
dc.description.abstract The overall thesis elucidates some important results in the field of developing chemosensors for some important ionic and neutral guests. Some new aggregation induced emission (AIE) active probes (Schiff base) have been developed here and the role of AIE in sensing outcome to overcome aggregation caused quenching (ACQ) effect has been discussed. Majority of the probes, reported in this thesis have naked eye sensing ability. In general, the research works describe a clear insight of the design principle involved in developing simple optical sensing probes which can detect various ionic and neutral guests in fully or partially aqueous solution and/or inside living cells. AIE-active probe L1 exhibited a selective TURN-ON fluorescence response towards Al3+ in solution and in live HeLa cells. Subsequently the highly emissive L1-Al3+ ensemble were used to track the ct-DNA by a dose dependant fluorescence quenching. L1 can also selectively sense Cu2+ through sharp colorimetric response. So, basically L1 is a metal ion responsive colorimetric and fluorescent probe which additionally can track DNA. On the other hand, a versatile fluorescent probe (L2) has demonstrated highly sensitive dual yet discerning sensing of SO32- and SO42–/HSO4– over competing analytes with beneficial attributes such as sensing in completely aqueous medium and an extremely fast response time. Moreover, L2 holds considerable potential as an analytical tool to investigate the physiological implications of sulfate/sulfite derivatives in cell by demonstrating differential intracellular sensing of SO32– and SO42-. Another AIE active probe L3 can sense multiple targets at a time. It can sense cations Al3+ and Zn2+ through individual Turn-On fluorescence responses and Cu2+ through colorimetric changes. Interestingly, L3 can also selectively sense anion fluoride by specific colorimetric response. Lastly, sensing probe L4 can discriminate geometrical isomers (Maleic Acid vs Fumaric Acid) by colorimetric as well as fluorescent changes as it can detect Maleic Acid over various other carboxylic acids in solution and food additives. en_US
dc.language.iso en en_US
dc.relation.ispartofseries TH1570;
dc.subject BIOSCIENCES AND BIOENGINEERING en_US
dc.title (A) Progressive Endeavor to Develop Efficient Organic Chromogenic and Fluorogenic Sensing Probes for Ionic and Neutral Guest en_US
dc.type Thesis en_US


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