The stabilization and targeting of surfactant-synthesized gold nanorods

Betty C. Rostro-Kohanloo; Lissett R. Bickford; Courtney M. Payne; Emily S. Day; Lindsey J.E. Anderson; Meng Zhong; Seunghyun Lee; Kathryn M. Mayer; Tomasz Zal; Liana Adam; Colin P.N. Dinney; Rebekah A. Drezek; Jennifer L. West; Jason H. Hafner

doi:10.1088/0957-4484/20/43/434005

The stabilization and targeting of surfactant-synthesized gold nanorods

Betty C. Rostro-Kohanloo, Lissett R. Bickford, Courtney M. Payne, Emily S. Day, Lindsey J.E. Anderson, Meng Zhong, Seunghyun Lee, Kathryn M. Mayer, Tomasz Zal, Liana Adam, Colin P.N. Dinney, Rebekah A. Drezek, Jennifer L. West, Jason H. Hafner

Research output: Contribution to journal › Article › peer-review

92 Scopus citations

Abstract

The strong cetyltrimethylammonium bromide (CTAB) surfactant responsible for the synthesis and stability of gold nanorod solutions complicates their biomedical applications. The critical parameter to maintain nanorod stability is the ratio of CTAB to nanorod concentration. The ratio is approximately 740 000 as determined by chloroform extraction of the CTAB from a nanorod solution. A comparison of nanorod stabilization by thiol-terminal PEG and by anionic polymers reveals that PEGylation results in higher yields and less aggregation upon removal of CTAB. A heterobifunctional PEG yields nanorods with exposed carboxyl groups for covalent conjugation to antibodies with the zero-length carbodiimide linker EDC. This conjugation strategy leads to approximately two functional antibodies per nanorod according to fluorimetry and ELISA assays. The nanorods specifically targeted cells in vitro and were visible with both two-photon and confocal reflectance microscopies. This covalent strategy should be generally applicable to other biomedical applications of gold nanorods as well as other gold nanoparticles synthesized with CTAB.

Original language	English (US)
Article number	434005
Journal	Nanotechnology
Volume	20
Issue number	43
DOIs	https://doi.org/10.1088/0957-4484/20/43/434005
State	Published - 2009

ASJC Scopus subject areas

Bioengineering
General Chemistry
General Materials Science
Mechanics of Materials
Mechanical Engineering
Electrical and Electronic Engineering

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title = "The stabilization and targeting of surfactant-synthesized gold nanorods",

abstract = "The strong cetyltrimethylammonium bromide (CTAB) surfactant responsible for the synthesis and stability of gold nanorod solutions complicates their biomedical applications. The critical parameter to maintain nanorod stability is the ratio of CTAB to nanorod concentration. The ratio is approximately 740 000 as determined by chloroform extraction of the CTAB from a nanorod solution. A comparison of nanorod stabilization by thiol-terminal PEG and by anionic polymers reveals that PEGylation results in higher yields and less aggregation upon removal of CTAB. A heterobifunctional PEG yields nanorods with exposed carboxyl groups for covalent conjugation to antibodies with the zero-length carbodiimide linker EDC. This conjugation strategy leads to approximately two functional antibodies per nanorod according to fluorimetry and ELISA assays. The nanorods specifically targeted cells in vitro and were visible with both two-photon and confocal reflectance microscopies. This covalent strategy should be generally applicable to other biomedical applications of gold nanorods as well as other gold nanoparticles synthesized with CTAB.",

author = "Rostro-Kohanloo, {Betty C.} and Bickford, {Lissett R.} and Payne, {Courtney M.} and Day, {Emily S.} and Anderson, {Lindsey J.E.} and Meng Zhong and Seunghyun Lee and Mayer, {Kathryn M.} and Tomasz Zal and Liana Adam and Dinney, {Colin P.N.} and Drezek, {Rebekah A.} and West, {Jennifer L.} and Hafner, {Jason H.}",

year = "2009",

doi = "10.1088/0957-4484/20/43/434005",

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AU - Rostro-Kohanloo, Betty C.

AU - Bickford, Lissett R.

AU - Payne, Courtney M.

AU - Day, Emily S.

AU - Anderson, Lindsey J.E.

AU - Zhong, Meng

AU - Lee, Seunghyun

AU - Mayer, Kathryn M.

AU - Zal, Tomasz

AU - Adam, Liana

AU - Dinney, Colin P.N.

AU - Drezek, Rebekah A.

AU - West, Jennifer L.

AU - Hafner, Jason H.

PY - 2009

Y1 - 2009

N2 - The strong cetyltrimethylammonium bromide (CTAB) surfactant responsible for the synthesis and stability of gold nanorod solutions complicates their biomedical applications. The critical parameter to maintain nanorod stability is the ratio of CTAB to nanorod concentration. The ratio is approximately 740 000 as determined by chloroform extraction of the CTAB from a nanorod solution. A comparison of nanorod stabilization by thiol-terminal PEG and by anionic polymers reveals that PEGylation results in higher yields and less aggregation upon removal of CTAB. A heterobifunctional PEG yields nanorods with exposed carboxyl groups for covalent conjugation to antibodies with the zero-length carbodiimide linker EDC. This conjugation strategy leads to approximately two functional antibodies per nanorod according to fluorimetry and ELISA assays. The nanorods specifically targeted cells in vitro and were visible with both two-photon and confocal reflectance microscopies. This covalent strategy should be generally applicable to other biomedical applications of gold nanorods as well as other gold nanoparticles synthesized with CTAB.

AB - The strong cetyltrimethylammonium bromide (CTAB) surfactant responsible for the synthesis and stability of gold nanorod solutions complicates their biomedical applications. The critical parameter to maintain nanorod stability is the ratio of CTAB to nanorod concentration. The ratio is approximately 740 000 as determined by chloroform extraction of the CTAB from a nanorod solution. A comparison of nanorod stabilization by thiol-terminal PEG and by anionic polymers reveals that PEGylation results in higher yields and less aggregation upon removal of CTAB. A heterobifunctional PEG yields nanorods with exposed carboxyl groups for covalent conjugation to antibodies with the zero-length carbodiimide linker EDC. This conjugation strategy leads to approximately two functional antibodies per nanorod according to fluorimetry and ELISA assays. The nanorods specifically targeted cells in vitro and were visible with both two-photon and confocal reflectance microscopies. This covalent strategy should be generally applicable to other biomedical applications of gold nanorods as well as other gold nanoparticles synthesized with CTAB.

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The stabilization and targeting of surfactant-synthesized gold nanorods

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