Recyclable Colorimetric Detection of Trivalent Cations in Aqueous Media Using Zwitterionic Gold Nanoparticles

This report describes a colorimetric assay for trivalent metal cations (M3+) using gold nanoparticles (AuNPs)-modified with oppositely charged thiols that can form intermolecular zwitterionic surfaces. Zwitterionic AuNPs (Zw-AuNPs) are stable in high-salt solutions and well dispersed in a wide range of pH values. M3+ including Fe3+, Al3+, and Cr3+ can effectively trigger the aggregation of Zw-AuNPs by interfering with their surface potential, and aggregated AuNPs can be regenerated and recycled by removing M3+. In our approach, the output signal can be observed by the naked eye within a micromolar (mu M) concentration range. Uniquely, our assay is capable of discriminating Fe3+ from Fe2+, which is challenging using traditional approaches. More importantly, Zw-AuNPs can be stored stably at room temperature for a long period (3 months) with constant detection performance. Both the cost-effectiveness and the long shelf life make Zw-AuNPs ideal for detecting M3+ in resource-poor and remote areas.