Synthesis of gold microplates using bovine serum albumin as a reductant and a stabilizer

Leslie Au; Byungkwon Lim; Peter Colletti; Young Shin Jun; Younan Xia

doi:10.1002/asia.200900468

Synthesis of gold microplates using bovine serum albumin as a reductant and a stabilizer

Leslie Au
, Byungkwon Lim
, Peter Colletti
, Young Shin Jun
, Younan Xia

Department of Energy, Environmental & Chemical Engineering

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

71 Scopus citations

Abstract

Gold microplates were synthesized in aqueous solutions by reducing HAuCl₄ with the hydroxyl groups in both serine and threonine of bovine serum albumin (BSA), which is a globular protein in its native state. In this article, we systematically investigated the effects of temperature, pH value, the concentration of BSA, and ionic species on the reduction kinetics and thus the size and morphology of the final product. The optimal experimental conditions for producing uniform Au microplates include the following: an elevated temperature in the range of 55-65 °C, an acidic solution with pH ≈ 3, and the presence of NaCl (0.14 M). We found that if any one of these parameters was deviated from the optimal condition, Au microplates would not be formed in high yields. We also found that the surfaces of the as-synthesized Au microplates were covered by a dense array of BSA bumps.

Original language	English
Pages (from-to)	123-129
Number of pages	7
Journal	Chemistry - An Asian Journal
Volume	5
Issue number	1
DOIs	https://doi.org/10.1002/asia.200900468
State	Published - Jan 4 2010

Keywords

Bovine serum albumin
Gold microplates
Nanostructures
Proteins

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10.1002/asia.200900468

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abstract = "Gold microplates were synthesized in aqueous solutions by reducing HAuCl4 with the hydroxyl groups in both serine and threonine of bovine serum albumin (BSA), which is a globular protein in its native state. In this article, we systematically investigated the effects of temperature, pH value, the concentration of BSA, and ionic species on the reduction kinetics and thus the size and morphology of the final product. The optimal experimental conditions for producing uniform Au microplates include the following: an elevated temperature in the range of 55-65 °C, an acidic solution with pH ≈ 3, and the presence of NaCl (0.14 M). We found that if any one of these parameters was deviated from the optimal condition, Au microplates would not be formed in high yields. We also found that the surfaces of the as-synthesized Au microplates were covered by a dense array of BSA bumps.",

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T1 - Synthesis of gold microplates using bovine serum albumin as a reductant and a stabilizer

AU - Au, Leslie

AU - Lim, Byungkwon

AU - Colletti, Peter

AU - Jun, Young Shin

AU - Xia, Younan

PY - 2010/1/4

Y1 - 2010/1/4

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AB - Gold microplates were synthesized in aqueous solutions by reducing HAuCl4 with the hydroxyl groups in both serine and threonine of bovine serum albumin (BSA), which is a globular protein in its native state. In this article, we systematically investigated the effects of temperature, pH value, the concentration of BSA, and ionic species on the reduction kinetics and thus the size and morphology of the final product. The optimal experimental conditions for producing uniform Au microplates include the following: an elevated temperature in the range of 55-65 °C, an acidic solution with pH ≈ 3, and the presence of NaCl (0.14 M). We found that if any one of these parameters was deviated from the optimal condition, Au microplates would not be formed in high yields. We also found that the surfaces of the as-synthesized Au microplates were covered by a dense array of BSA bumps.

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KW - Nanostructures

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Synthesis of gold microplates using bovine serum albumin as a reductant and a stabilizer

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