Gold decoration of silica by decomposition of aqueous gold(iii) hydroxide at low temperatures

M. A. Macchione; J. E. Samaniego; R. Moiraghi; N. Passarelli; V. A. Macagno; E. A. Coronado; M. J. Yacaman; M. A. Pérez

doi:10.1039/c8ra01032c

Gold decoration of silica by decomposition of aqueous gold(iii) hydroxide at low temperatures

M. A. Macchione, J. E. Samaniego, R. Moiraghi, N. Passarelli, V. A. Macagno, E. A. Coronado, M. J. Yacaman, M. A. Pérez

Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada (CICATA), Unidad Legaria

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

3 Scopus citations

Abstract

The decomposition of gold hydroxide to give metallic gold is known to take place around 300 °C in dry environments. However, little information about the gold hydroxide stability in wet environments has been recorded. Here, we present experimental evidence which shows that aqueous/water-enriched gold(iii) hydroxide colloids decompose spontaneously to form gold nanoparticles at temperature values above the freezing point of water. Based on this reaction, we developed a method to decorate silica spheres with gold nanoparticles by precipitation and decomposition of gold(iii) hydroxide onto the silica surface in wet media by a simple one-pot/one-step protocol. The silica-gold nanostructures are prepared in high yield and with a low level of by-products.

Original language	English
Pages (from-to)	19979-19989
Number of pages	11
Journal	RSC Advances
Volume	8
Issue number	36
DOIs	https://doi.org/10.1039/c8ra01032c
State	Published - 2018

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title = "Gold decoration of silica by decomposition of aqueous gold(iii) hydroxide at low temperatures",

abstract = "The decomposition of gold hydroxide to give metallic gold is known to take place around 300 °C in dry environments. However, little information about the gold hydroxide stability in wet environments has been recorded. Here, we present experimental evidence which shows that aqueous/water-enriched gold(iii) hydroxide colloids decompose spontaneously to form gold nanoparticles at temperature values above the freezing point of water. Based on this reaction, we developed a method to decorate silica spheres with gold nanoparticles by precipitation and decomposition of gold(iii) hydroxide onto the silica surface in wet media by a simple one-pot/one-step protocol. The silica-gold nanostructures are prepared in high yield and with a low level of by-products.",

author = "Macchione, {M. A.} and Samaniego, {J. E.} and R. Moiraghi and N. Passarelli and Macagno, {V. A.} and Coronado, {E. A.} and Yacaman, {M. J.} and P{\'e}rez, {M. A.}",

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T1 - Gold decoration of silica by decomposition of aqueous gold(iii) hydroxide at low temperatures

AU - Macchione, M. A.

AU - Samaniego, J. E.

AU - Moiraghi, R.

AU - Passarelli, N.

AU - Macagno, V. A.

AU - Coronado, E. A.

AU - Yacaman, M. J.

AU - Pérez, M. A.

PY - 2018

Y1 - 2018

N2 - The decomposition of gold hydroxide to give metallic gold is known to take place around 300 °C in dry environments. However, little information about the gold hydroxide stability in wet environments has been recorded. Here, we present experimental evidence which shows that aqueous/water-enriched gold(iii) hydroxide colloids decompose spontaneously to form gold nanoparticles at temperature values above the freezing point of water. Based on this reaction, we developed a method to decorate silica spheres with gold nanoparticles by precipitation and decomposition of gold(iii) hydroxide onto the silica surface in wet media by a simple one-pot/one-step protocol. The silica-gold nanostructures are prepared in high yield and with a low level of by-products.

AB - The decomposition of gold hydroxide to give metallic gold is known to take place around 300 °C in dry environments. However, little information about the gold hydroxide stability in wet environments has been recorded. Here, we present experimental evidence which shows that aqueous/water-enriched gold(iii) hydroxide colloids decompose spontaneously to form gold nanoparticles at temperature values above the freezing point of water. Based on this reaction, we developed a method to decorate silica spheres with gold nanoparticles by precipitation and decomposition of gold(iii) hydroxide onto the silica surface in wet media by a simple one-pot/one-step protocol. The silica-gold nanostructures are prepared in high yield and with a low level of by-products.

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U2 - 10.1039/c8ra01032c

DO - 10.1039/c8ra01032c

M3 - Artículo

SN - 2046-2069

VL - 8

SP - 19979

EP - 19989

JO - RSC Advances

JF - RSC Advances

IS - 36

ER -

Gold decoration of silica by decomposition of aqueous gold(iii) hydroxide at low temperatures

Abstract

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