Surface organometallic chemistry on metals: evidence for the formation of a stable (Rh-s)(2)Ge(H)(CH2)(4)OH fragment at the surface of a rhodium nanoparticle
Surface organometallic chemistry on metals: evidence for the formation of a stable (Rh-s)(2)Ge(H)(CH2)(4)OH fragment at the surface of a rhodium nanoparticle
A grafted organogermanium moiety was observed on a rhodium surface, starting with an organogermane compound, (Ad)GeH3 (Ad = adamantyl) (Taoufik et al. J. Am. Chem. Soc. 1996, 118, 4167). Recently, new surface germanium complexes with functional groups grafted on Pt and Rh particles were prepared by reaction under hydrogen in propan-2-ol of organogermane complexes H3GeRf (R-f = -R-OH or R-OMe) with the surface of rhodium catalysts (Tena et al. J. Mol. Catal. 1999, 146, 53). It is proposed that grafted organometallic fragments with formula Rh-s[HxGeRyf](2)/SiO2 could be stabilized on the metallic surface. This paper reports the characterization by various physical techniques of the surface complexes obtained by reaction of H3Ge-(CH3)(4)-OH with the reduced surface of rhodium catalysts supported on silica.
controlled hydrogenolysis, bimetallic catalysts, supported rhodium, silica, germanium, germylene, complex, sn(n-c4h9)(4), adsorption, rh/sio2
1607-1611
Tena, Emmanuel
87bdf00c-2c65-437c-bc92-23cfffd9aeff
Spagnol, Michel
8ed83dc3-baa6-47a8-9e64-a672f313906a
Candy, Jean-Pierre
e269d691-990d-42b7-9e7e-cc711af719bf
de Mallmann, Aimery
7a64076e-e156-47e8-873c-d5ee35fa8138
Fiddy, Steven
4bd733e0-36d4-4d9f-8f2b-d1ccad3b867c
Corker, Judith
238f65f3-bd3c-4da8-95a8-ec4fd6d0f832
Basset, Jean-Marie
ddb9136e-41c9-46e3-ac50-13dcc8cd7388
22 April 2003
Tena, Emmanuel
87bdf00c-2c65-437c-bc92-23cfffd9aeff
Spagnol, Michel
8ed83dc3-baa6-47a8-9e64-a672f313906a
Candy, Jean-Pierre
e269d691-990d-42b7-9e7e-cc711af719bf
de Mallmann, Aimery
7a64076e-e156-47e8-873c-d5ee35fa8138
Fiddy, Steven
4bd733e0-36d4-4d9f-8f2b-d1ccad3b867c
Corker, Judith
238f65f3-bd3c-4da8-95a8-ec4fd6d0f832
Basset, Jean-Marie
ddb9136e-41c9-46e3-ac50-13dcc8cd7388
Tena, Emmanuel, Spagnol, Michel, Candy, Jean-Pierre, de Mallmann, Aimery, Fiddy, Steven, Corker, Judith and Basset, Jean-Marie
(2003)
Surface organometallic chemistry on metals: evidence for the formation of a stable (Rh-s)(2)Ge(H)(CH2)(4)OH fragment at the surface of a rhodium nanoparticle.
Chemistry of Materials, 15 (8), .
(doi:10.1021/cm021373x).
Abstract
A grafted organogermanium moiety was observed on a rhodium surface, starting with an organogermane compound, (Ad)GeH3 (Ad = adamantyl) (Taoufik et al. J. Am. Chem. Soc. 1996, 118, 4167). Recently, new surface germanium complexes with functional groups grafted on Pt and Rh particles were prepared by reaction under hydrogen in propan-2-ol of organogermane complexes H3GeRf (R-f = -R-OH or R-OMe) with the surface of rhodium catalysts (Tena et al. J. Mol. Catal. 1999, 146, 53). It is proposed that grafted organometallic fragments with formula Rh-s[HxGeRyf](2)/SiO2 could be stabilized on the metallic surface. This paper reports the characterization by various physical techniques of the surface complexes obtained by reaction of H3Ge-(CH3)(4)-OH with the reduced surface of rhodium catalysts supported on silica.
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Published date: 22 April 2003
Keywords:
controlled hydrogenolysis, bimetallic catalysts, supported rhodium, silica, germanium, germylene, complex, sn(n-c4h9)(4), adsorption, rh/sio2
Identifiers
Local EPrints ID: 20088
URI: http://eprints.soton.ac.uk/id/eprint/20088
ISSN: 0897-4756
PURE UUID: 9c3b7e25-08d0-415a-80b0-91788d752527
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Date deposited: 23 Feb 2006
Last modified: 15 Mar 2024 06:22
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Author:
Emmanuel Tena
Author:
Michel Spagnol
Author:
Jean-Pierre Candy
Author:
Aimery de Mallmann
Author:
Steven Fiddy
Author:
Judith Corker
Author:
Jean-Marie Basset
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