Fast, single-step, and surfactant-free oligonucleotide modification of gold nanoparticles using DNA with a positively charged tail

Ron Gill; Kristian Göeken; Vinod Subramaniam

Journal ArticleOPEN ACCESS

Fast, single-step, and surfactant-free oligonucleotide modification of gold nanoparticles using DNA with a positively charged tail

Gill R
Göeken K
Subramaniam V

Chemical Communications (2013) 49(97) 11400-11402

DOI: 10.1039/c3cc47138a

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Abstract

Fast modification of large gold nanoparticles with DNA is achieved by using DNA with a polycationic tail. The conjugated DNA is available for specific hybridization, and therefore can be used for DNA-based assays or for constructing nanoparticle superstructures based on DNA hybridization. © 2013 Royal Society of Chemistry.

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Gill, R., Göeken, K., & Subramaniam, V. (2013). Fast, single-step, and surfactant-free oligonucleotide modification of gold nanoparticles using DNA with a positively charged tail. Chemical Communications, 49(97), 11400–11402. https://doi.org/10.1039/c3cc47138a

Fast, single-step, and surfactant-free oligonucleotide modification of gold nanoparticles using DNA with a positively charged tail

Abstract

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