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A Novel Physical Approach for Cationic-Thiolate Protected Fluorescent Gold Nanoparticles.


ABSTRACT: Knowledge on the synthesis of cationically charged fluorescent gold nanoparticles (Au NPs) is limited because the electrostatic repulsion between cationic ligands on the surface of NP hinders the formation of small Au NPs (usually less than ca. 2?nm) during nucleation in solvents. We herein propose a novel methodology for a synthesis of water-dispersible, cationic-thiolate protected fluorescent Au NPs by the sputtering of Au into liquid matrix containing thiolate ligands. By controlling mercaptan concentration the size and photophysical characteristics of Au NPs were directly controlled, resulting in near IR fluorescence with a 0.9% of absolute quantum yield. Cationically charged fluorescent metal NPs are promising, especially in biological fields, and this work provides a novel methodology towards the synthesis of a new series of functional metal NPs.

SUBMITTER: Ishida Y 

PROVIDER: S-EPMC4612736 | biostudies-literature | 2015

REPOSITORIES: biostudies-literature

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A Novel Physical Approach for Cationic-Thiolate Protected Fluorescent Gold Nanoparticles.

Ishida Yohei Y   Lee Chaiyathat C   Yonezawa Tetsu T  

Scientific reports 20151020


Knowledge on the synthesis of cationically charged fluorescent gold nanoparticles (Au NPs) is limited because the electrostatic repulsion between cationic ligands on the surface of NP hinders the formation of small Au NPs (usually less than ca. 2 nm) during nucleation in solvents. We herein propose a novel methodology for a synthesis of water-dispersible, cationic-thiolate protected fluorescent Au NPs by the sputtering of Au into liquid matrix containing thiolate ligands. By controlling mercapta  ...[more]

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