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Antibody-Mediated Self-Limiting Self-Assembly for Quantitative Analysis of Nanoparticle Surfaces by Atomic Force Microscopy

Published

Author(s)

Carly L. Geronimo, Robert I. MacCuspie

Abstract

Quantification of very low density molecular coatings on large (60 nm) gold nanoparticles (AuNPs) is demonstrated via the use of antibody-mediated self-limiting self-assembly of small and large AuNPs into raspberry-like structures and subsequently imaged by atomic force microscopy (AFM). AFM imaging is proposed as an automated, lower-cost, higher-throughput alternative to immunostaining and imaging by transmission electron microscopy (TEM). Synthesis of a library of large AuNPs, containing one of three ligand molecules in one of three stoichiometries (1, 2, or 10 ligands per AuNP), and small probe AuNPs with one of three antibody molecules in a 1 antibody per AuNP ratio, enabled a range of predicted self-limiting self-assembled structures. A model predicting the probability of observing a given small to large AuNP ratio based on a topography measurement such as AFM is described, when purely random orientational deposition is assumed as well as accounting for the stochastic synthesis method of the library AuNPs with varied ligand ratios. Experimental data was found to agree very well with simple predictive models when using an established AFM sample prep method that avoids drying-induced aggregation.
Citation
Microscopy and Microanalysis
Volume
17
Issue
2

Keywords

Self-limiting self-assembly, single nanoparticle surface characterization, immunostaining, atomic force microscopy (AFM), transmission electron microscopy (TEM)

Citation

Geronimo, C. and MacCuspie, R. (2011), Antibody-Mediated Self-Limiting Self-Assembly for Quantitative Analysis of Nanoparticle Surfaces by Atomic Force Microscopy, Microscopy and Microanalysis, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=906401 (Accessed March 28, 2024)
Created March 2, 2011, Updated October 12, 2021