Palladium nanoparticles on silica-rich substrates by spontaneous reduction at room temperature

Raúl Pina-Zapardiel; Isabel Montero; Antonio Esteban-Cubillo; José S. Moya; Wayne D. Kaplan; Thangadurai Paramasivam; Carlos Pecharromán

doi:10.1007/s11051-011-0508-7

Palladium nanoparticles on silica-rich substrates by spontaneous reduction at room temperature

Raúl Pina-Zapardiel, Isabel Montero, Antonio Esteban-Cubillo, José S. Moya, Wayne D. Kaplan, Thangadurai Paramasivam, Carlos Pecharromán

Materials Science & Engineering

Technion - Israel Institute of Technology

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

Abstract

Metallic palladium nanoparticles (<5 nm) have been spontaneously obtained from an acid solution of palladium chloride salt on silica-rich substrates (sepiolite, microfibrous silica, fumed silica, and milled silica glass) without any additional reduction treatment. Variable proportions of metallic palladium were straightforwardly obtained, depending on the nature of the substrate. The presence of a large amount of silanol groups acting as nucleation centers, seem to be a requisite to obtain small Pd nanoparticles. Additionally, an absorbance maximum associated to a surface plasmon resonance corresponding to the spherical particles of metallic palladium has been identified at a wavelength of 238 nm. The large specific surface of the employed substrates with the palladium nanoparticles suggest that these materials could be used for gas catalysis.

Original language	English
Pages (from-to)	5239-5249
Number of pages	11
Journal	Journal of Nanoparticle Research
Volume	13
Issue number	10
DOIs	https://doi.org/10.1007/s11051-011-0508-7
State	Published - Oct 2011

Keywords

Catalysts
Nanoparticles
Palladium
Sepiolite
Spontaneous reduction

All Science Journal Classification (ASJC) codes

General Chemistry
Condensed Matter Physics
Bioengineering
Atomic and Molecular Physics, and Optics
General Materials Science
Modelling and Simulation

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10.1007/s11051-011-0508-7

Cite this

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title = "Palladium nanoparticles on silica-rich substrates by spontaneous reduction at room temperature",

abstract = "Metallic palladium nanoparticles (<5 nm) have been spontaneously obtained from an acid solution of palladium chloride salt on silica-rich substrates (sepiolite, microfibrous silica, fumed silica, and milled silica glass) without any additional reduction treatment. Variable proportions of metallic palladium were straightforwardly obtained, depending on the nature of the substrate. The presence of a large amount of silanol groups acting as nucleation centers, seem to be a requisite to obtain small Pd nanoparticles. Additionally, an absorbance maximum associated to a surface plasmon resonance corresponding to the spherical particles of metallic palladium has been identified at a wavelength of 238 nm. The large specific surface of the employed substrates with the palladium nanoparticles suggest that these materials could be used for gas catalysis.",

keywords = "Catalysts, Nanoparticles, Palladium, Sepiolite, Spontaneous reduction",

author = "Ra{\'u}l Pina-Zapardiel and Isabel Montero and Antonio Esteban-Cubillo and Moya, {Jos{\'e} S.} and Kaplan, {Wayne D.} and Thangadurai Paramasivam and Carlos Pecharrom{\'a}n",

note = "Funding Information: Acknowledgments The authors would like to thank DOMINO (CENIT-2007-1001) subsidized by CDTI, and PET2007_0233-DANIEL subsidized by MICINN Spanish project for financial support.",

year = "2011",

month = oct,

doi = "10.1007/s11051-011-0508-7",

language = "الإنجليزيّة",

volume = "13",

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T1 - Palladium nanoparticles on silica-rich substrates by spontaneous reduction at room temperature

AU - Pina-Zapardiel, Raúl

AU - Montero, Isabel

AU - Esteban-Cubillo, Antonio

AU - Moya, José S.

AU - Kaplan, Wayne D.

AU - Paramasivam, Thangadurai

AU - Pecharromán, Carlos

N1 - Funding Information: Acknowledgments The authors would like to thank DOMINO (CENIT-2007-1001) subsidized by CDTI, and PET2007_0233-DANIEL subsidized by MICINN Spanish project for financial support.

PY - 2011/10

Y1 - 2011/10

N2 - Metallic palladium nanoparticles (<5 nm) have been spontaneously obtained from an acid solution of palladium chloride salt on silica-rich substrates (sepiolite, microfibrous silica, fumed silica, and milled silica glass) without any additional reduction treatment. Variable proportions of metallic palladium were straightforwardly obtained, depending on the nature of the substrate. The presence of a large amount of silanol groups acting as nucleation centers, seem to be a requisite to obtain small Pd nanoparticles. Additionally, an absorbance maximum associated to a surface plasmon resonance corresponding to the spherical particles of metallic palladium has been identified at a wavelength of 238 nm. The large specific surface of the employed substrates with the palladium nanoparticles suggest that these materials could be used for gas catalysis.

AB - Metallic palladium nanoparticles (<5 nm) have been spontaneously obtained from an acid solution of palladium chloride salt on silica-rich substrates (sepiolite, microfibrous silica, fumed silica, and milled silica glass) without any additional reduction treatment. Variable proportions of metallic palladium were straightforwardly obtained, depending on the nature of the substrate. The presence of a large amount of silanol groups acting as nucleation centers, seem to be a requisite to obtain small Pd nanoparticles. Additionally, an absorbance maximum associated to a surface plasmon resonance corresponding to the spherical particles of metallic palladium has been identified at a wavelength of 238 nm. The large specific surface of the employed substrates with the palladium nanoparticles suggest that these materials could be used for gas catalysis.

KW - Catalysts

KW - Nanoparticles

KW - Palladium

KW - Sepiolite

KW - Spontaneous reduction

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DO - 10.1007/s11051-011-0508-7

M3 - مقالة

SN - 1388-0764

VL - 13

SP - 5239

EP - 5249

JO - Journal of Nanoparticle Research

JF - Journal of Nanoparticle Research

IS - 10

ER -

Palladium nanoparticles on silica-rich substrates by spontaneous reduction at room temperature

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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