José M. Sániger scite author profile

Gold nanoparticles were deposited on the surface of multiwalled carbon nanotubes (MWNTs) functionalized with aliphatic bifunctional thiols (1,4-butanedithiol, 1,6-hexanedithiol, 1,8-octanedithiol, and 2-aminoethanethiol) through a direct solvent-free procedure. Small gold particles, with a narrow particle size distribution around 1.7 nm, were obtained on 1,6-hexanedithiol-functionalized MWNTs. For MWNTs functionalized with the aminothiol, the average Au particle size was larger, 5.5 nm, apparently due to a coalescence phenomenon. Gatan image filter (GIF) observations show that sulfur is at the nanotube surface with a non-homogeneous distribution. A higher sulfur concentration was observed around the gold nanoparticles' location.

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One-step synthesis of Mn3O4 nanoparticles: Structural and magnetic study

Vázquez-Olmos¹,

Redón²,

Rodríguez‐Gattorno³

et al. 2005

Journal of Colloid and Interface Science

174

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Gold nanoparticles: Support effects for the WGS reaction

Sandoval

Gómez-Cortés

Zanella

et al. 2007

Journal of Molecular Catalysis A: Chemical

138

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Adsorption kinetics of optochemical NH3 gas sensing with semiconductor polyaniline films

Trejo

Nicho

et al. 2002

Sensors and Actuators B: Chemical

170

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New Preparation Method of Gold Nanoparticles on SiO₂

et al. 2006

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It is shown that adsorption of the [Au(en)(2)](3+) cationic complex can be successfully employed for the deposition of gold nanoparticles (1.5 to 3 nm) onto SiO(2) with high metal loading, good dispersion, and small Au particle size. When the solution pH increases (from 3.8 to 10.5), the Au loading in the Au/SiO(2) samples increases proportionally (from 0.2 to 5.5 wt %), and the average gold particle size also increases (from 1.5 to 2.4 nm). These effects are explained by the increase in the amount of negatively charged sites present on the SiO(2) surface, namely, when the solution pH increases, a higher number of [Au(en)(2)](3+) species can be adsorbed. Extending the adsorption time from 2 to 16 h gives rise to an increase in the gold loading from 3.3 to 4.0 wt % and in the average particle size from 1.8 to 2.9 nm. Different morphologies of gold nanoparticles are present as a function of the particle size. Particles with a size of 3-5 nm show defective structure, some of them having a multiple twinning particle (MTP) structure. At the same time, nanoparticles with an average size of ca. 2 nm exhibit defect-free structure with well-distinguishable {111} family planes. TEM and HAADF observations revealed that Au particles do not agglomerate on the SiO(2) support: gold is present on the surface of SiO(2) only as small particles. Density functional theory calculations were employed to study the mechanisms of [Au(en)(2)](3+) adsorption, where neutral and negatively charged silica surfaces were simulated by neutral cluster Si(4)O(10)H(4) and negatively charged cluster Si(4)O(10)H(3), respectively. The calculation results are totally consistent with the suggestion that the deposition of gold takes place according to a cationic adsorption mechanism.

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José M. Sániger

Deposition of Gold Nanoparticles onto Thiol-Functionalized Multiwalled Carbon Nanotubes

One-step synthesis of Mn3O4 nanoparticles: Structural and magnetic study

Gold nanoparticles: Support effects for the WGS reaction

Adsorption kinetics of optochemical NH3 gas sensing with semiconductor polyaniline films

New Preparation Method of Gold Nanoparticles on SiO₂

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José M. Sániger

Deposition of Gold Nanoparticles onto Thiol-Functionalized Multiwalled Carbon Nanotubes

One-step synthesis of Mn3O4 nanoparticles: Structural and magnetic study

Gold nanoparticles: Support effects for the WGS reaction

Adsorption kinetics of optochemical NH3 gas sensing with semiconductor polyaniline films

New Preparation Method of Gold Nanoparticles on SiO2

Contact Info

Product

Resources

About

New Preparation Method of Gold Nanoparticles on SiO₂