Structure-reactivity correlations in the catalytic coupling of ethyne over novel bimetallic Pd/Sn catalysts

AF Lee; Christopher John Baddeley; C Hardacre; GD Moggridge; RM Ormerod; RM Lambert

Structure-reactivity correlations in the catalytic coupling of ethyne over novel bimetallic Pd/Sn catalysts

AF Lee, Christopher John Baddeley, C Hardacre, GD Moggridge, RM Ormerod, RM Lambert

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

Abstract

The structure, thermal stability, and catalytic behavior of a novel highly dispersed silica-supported Pd/Sn catalyst prepared by an organometallic route have been examined by X-ray photoelectron, X-ray diffraction, and X-ray absorption, fine structure spectroscopies, the latter two measurements being carried outwith an in situ reaction cell. Additional reactor measurements were performed on a more Sn-rich catalyst and on a pure Pd catalyst. Varying the temperature of reduction induced large variations in catalytic performance toward ethyne-coupling reactions. These changes are understandable in terms of the destruction of SnO2-like structures surrounding the Pd core, yielding a skin of metallic Sn which subsequently undergoes intermixing with Pd. The overall thermal and catalytic behavior of these highly dispersed materials accords well with the analogous single-crystal model system.

Original language	English
Pages (from-to)	2797
Number of pages	2797
Journal	Journal of Physical Chemistry B
Volume	101
Publication status	Published - 10 Apr 1997

Keywords

SN/PT(111) SURFACE ALLOYS
SINGLE-CRYSTAL SURFACES
X-RAY PHOTOEMISSION
ORGANOMETALLIC CHEMISTRY
CONTROLLED HYDROGENOLYSIS
THERMAL-DECOMPOSITION
SUPPORTED PALLADIUM
PARTICLE-SIZE
ACETYLENE
BENZENE

Cite this

@article{e2c30b84a2c24856994355d817448e72,

title = "Structure-reactivity correlations in the catalytic coupling of ethyne over novel bimetallic Pd/Sn catalysts",

abstract = "The structure, thermal stability, and catalytic behavior of a novel highly dispersed silica-supported Pd/Sn catalyst prepared by an organometallic route have been examined by X-ray photoelectron, X-ray diffraction, and X-ray absorption, fine structure spectroscopies, the latter two measurements being carried outwith an in situ reaction cell. Additional reactor measurements were performed on a more Sn-rich catalyst and on a pure Pd catalyst. Varying the temperature of reduction induced large variations in catalytic performance toward ethyne-coupling reactions. These changes are understandable in terms of the destruction of SnO2-like structures surrounding the Pd core, yielding a skin of metallic Sn which subsequently undergoes intermixing with Pd. The overall thermal and catalytic behavior of these highly dispersed materials accords well with the analogous single-crystal model system.",

keywords = "SN/PT(111) SURFACE ALLOYS, SINGLE-CRYSTAL SURFACES, X-RAY PHOTOEMISSION, ORGANOMETALLIC CHEMISTRY, CONTROLLED HYDROGENOLYSIS, THERMAL-DECOMPOSITION, SUPPORTED PALLADIUM, PARTICLE-SIZE, ACETYLENE, BENZENE",

author = "AF Lee and Baddeley, {Christopher John} and C Hardacre and GD Moggridge and RM Ormerod and RM Lambert",

year = "1997",

month = apr,

day = "10",

language = "English",

volume = "101",

pages = "2797",

journal = "Journal of Physical Chemistry B",

issn = "1520-6106",

publisher = "American Chemical Society (ACS)",

}

TY - JOUR

T1 - Structure-reactivity correlations in the catalytic coupling of ethyne over novel bimetallic Pd/Sn catalysts

AU - Lee, AF

AU - Baddeley, Christopher John

AU - Hardacre, C

AU - Moggridge, GD

AU - Ormerod, RM

AU - Lambert, RM

PY - 1997/4/10

Y1 - 1997/4/10

N2 - The structure, thermal stability, and catalytic behavior of a novel highly dispersed silica-supported Pd/Sn catalyst prepared by an organometallic route have been examined by X-ray photoelectron, X-ray diffraction, and X-ray absorption, fine structure spectroscopies, the latter two measurements being carried outwith an in situ reaction cell. Additional reactor measurements were performed on a more Sn-rich catalyst and on a pure Pd catalyst. Varying the temperature of reduction induced large variations in catalytic performance toward ethyne-coupling reactions. These changes are understandable in terms of the destruction of SnO2-like structures surrounding the Pd core, yielding a skin of metallic Sn which subsequently undergoes intermixing with Pd. The overall thermal and catalytic behavior of these highly dispersed materials accords well with the analogous single-crystal model system.

AB - The structure, thermal stability, and catalytic behavior of a novel highly dispersed silica-supported Pd/Sn catalyst prepared by an organometallic route have been examined by X-ray photoelectron, X-ray diffraction, and X-ray absorption, fine structure spectroscopies, the latter two measurements being carried outwith an in situ reaction cell. Additional reactor measurements were performed on a more Sn-rich catalyst and on a pure Pd catalyst. Varying the temperature of reduction induced large variations in catalytic performance toward ethyne-coupling reactions. These changes are understandable in terms of the destruction of SnO2-like structures surrounding the Pd core, yielding a skin of metallic Sn which subsequently undergoes intermixing with Pd. The overall thermal and catalytic behavior of these highly dispersed materials accords well with the analogous single-crystal model system.

KW - SN/PT(111) SURFACE ALLOYS

KW - SINGLE-CRYSTAL SURFACES

KW - X-RAY PHOTOEMISSION

KW - ORGANOMETALLIC CHEMISTRY

KW - CONTROLLED HYDROGENOLYSIS

KW - THERMAL-DECOMPOSITION

KW - SUPPORTED PALLADIUM

KW - PARTICLE-SIZE

KW - ACETYLENE

KW - BENZENE

M3 - Article

SN - 1520-6106

VL - 101

SP - 2797

JO - Journal of Physical Chemistry B

JF - Journal of Physical Chemistry B

ER -

Structure-reactivity correlations in the catalytic coupling of ethyne over novel bimetallic Pd/Sn catalysts

Abstract

Keywords

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