Silver Ions Detection via Nucleolipids Self-Assembly | Zendy

Bruno Aliès | Zendy; Mohamed Amine Ouelhazi | Zendy; Angéline Noireau | Zendy; Karen Gaudin | Zendy; Philippe Barthélémy | Zendy

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Silver Ions Detection via Nucleolipids Self-Assembly

Author(s) -

Bruno Aliès,

Mohamed Amine Ouelhazi,

Angéline Noireau,

Karen Gaudin,

Philippe Barthélémy

Publication year - 2018

Publication title -

analytical chemistry

Language(s) - Uncategorized

Resource type - Journals

SCImago Journal Rank - 2.117

H-Index - 332

eISSN - 1520-6882

pISSN - 0003-2700

DOI - 10.1021/acs.analchem.8b04066

Subject(s) - chemistry , moiety , supramolecular chemistry , amphiphile , ion , thioflavin , fluorescence , aqueous solution , metal ions in aqueous solution , liposome , membrane , self assembly , combinatorial chemistry , stereochemistry , molecule , organic chemistry , copolymer , biochemistry , medicine , physics , disease , pathology , quantum mechanics , alzheimer's disease , polymer

A novel hybrid bioinspired amphiphile featuring a cytosine moiety, which self-assembles into liposomes can be used to detect silver ions in aqueous media. The coordination of Ag + ions by the nucleotide moiety increases membrane rigidity, which enhances the fluorescence of a common reporter, Thioflavin T. Ag + can be sensed even at trace concentrations (3 ppb) with great specificity over other metals ions. These nucleotide based supramolecular structures can be used to detect silver ions in drinking water, demonstrating the robustness of this approach.

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