AI Article Synopsis
- A new compound called calix[]triazolium was created that specifically detects AMP (adenosine monophosphate).
- The compound binds with chromenolate anions to form a non-fluorescent complex that can then switch to a fluorescent state when AMP is present.
- This system effectively differentiates AMP from similar molecules like ADP and ATP based on fluorescence changes, making it unique in its sensing capabilities.
Article Abstract
A novel calix[]triazolium was synthesized and exhibited excellent selectivity for AMP. The binding between calix[]triazolium and chromenolate anions forms a non-fluorescent complex and the resulting supramolecular ensemble selectively detects AMP in water and induces "turn-on" fluorescence. The sensing platform is the first macrocyclic system to discriminate AMP from ADP and ATP through fluorescence changes.
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Article Synopsis
- A new compound called calix[]triazolium was created that specifically detects AMP (adenosine monophosphate).
- The compound binds with chromenolate anions to form a non-fluorescent complex that can then switch to a fluorescent state when AMP is present.
- This system effectively differentiates AMP from similar molecules like ADP and ATP based on fluorescence changes, making it unique in its sensing capabilities.
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Department of Chemistry, Indian Institute of Technology, Powai, Mumbai-400076 (India), Fax: (+91) 22-2576-7152.
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