AI Article Synopsis
- - Surface chemistry is crucial for determining the properties of gold nanoparticles (AuNPs), and traditional methods for modifying these surfaces often involve complex place-exchange reactions with new ligands.
- - A new methodology has been developed that modifies AuNPs by acylating terminal amino groups of PEG ligands using organic acid anhydrides in a simple aqueous buffer.
- - This approach not only allows for complete surface modification but also enables the creation of AuNPs with mixed surface chemistries, making it a more efficient and versatile alternative to existing methods for customizing AuNP surfaces.
Article Abstract
Surface chemistry is a key determinant of the physico-chemical and biological properties of gold nanoparticles (AuNPs). The introduction of chemical diversity in the surface of AuNPs is usually accomplished by place-exchange reactions using incoming ligands containing the desired terminal functional groups. As an alternative approach, we present here a simple, practical methodology to modify the surface of gold nanoparticles that allows the preparation of AuNPs stabilized with polyethyleneglycol (PEG) ligands with different surface chemistries using AuNPs stabilized with thiol-PEG-amino ligands as starting material. The surface modification reaction involves the acylation of the terminal amino groups in the ligand with an organic acid anhydride in an aqueous buffer. In addition to a full surface modification, this method also allows the synthesis of AuNPs with tailored mixed surfaces, containing two or more different functional groups, each of them at the desired extent. The ease of the experimental conditions for the reaction, purification, and for determining the level of surface modification makes this strategy an attractive alternative to current methods for the preparation of AuNPs with diverse surface chemistry.
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| http://dx.doi.org/10.1016/j.jcis.2023.03.043 | DOI Listing |
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