Nucleophilic addition reactions of the osmium-antimony cluster (μ-H)Os3(CO)9(μ3-C6H4 ) (μ-SbPh2): Orthometalation of triphenylphosphine at ambient temperature

Guizhu Chen; Mingli Deng; Chee Keong Lee; Weng Kee Leong

doi:10.1021/om010959a

Nucleophilic addition reactions of the osmium-antimony cluster (μ-H)Os₃(CO)₉(μ₃-C₆H₄) (μ-SbPh₂): Orthometalation of triphenylphosphine at ambient temperature

Guizhu Chen, Mingli Deng, Chee Keong Lee, Weng Kee Leong^*

^*Corresponding author for this work

National University of Singapore

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

22 Citations (Scopus)

Abstract

At ambient temperatures, the reaction of Os₃(μ-H)(μ-SbPh₂)(μ₃,η² -C₆H₄)(CO)₉, 1, with PPh₃ proceeded via a nucleophilic addition product, Os₃(μ-H)(μ-SbPh₂)(μ₂,η² -C₆H₄)(CO)₉(PPh₃), 2a.This can lose CO to give Os₃(μ-H)(μ-SbPh₂)(μ₃,η² -C₆H₄)(CO)₃(PPh₃), 3a, isomerize, deorthometalate to Os₃(μ-SbPh₂)(C₆H₅)(CO)₉(PPh₃), 5a, or react with excess PPh₃ to give an orthometalated product, Os₃(μ-SbPh₂)(CO)₈(PPh₂C₆H₄)(PPh₃)₂, 6a. The origin of the orthometalated phenyl ring in 6a has been established via the reaction of a p-tolyl analogue of 2a, viz., Os₃(μ-H)(μ-SbPh₂)(μ₂,η² -C₆H₄)(CO)₉{(p-tolyl)₃P}, 2b, with PPh₃.

Original language	English
Pages (from-to)	1227-1234
Number of pages	8
Journal	Organometallics
Volume	21
Issue number	6
DOIs	https://doi.org/10.1021/om010959a
Publication status	Published - Mar 18 2002
Externally published	Yes

ASJC Scopus Subject Areas

Physical and Theoretical Chemistry
Organic Chemistry
Inorganic Chemistry

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title = "Nucleophilic addition reactions of the osmium-antimony cluster (μ-H)Os3(CO)9(μ3-C6H4 ) (μ-SbPh2): Orthometalation of triphenylphosphine at ambient temperature",

abstract = "At ambient temperatures, the reaction of Os3(μ-H)(μ-SbPh2)(μ3,η2 -C6H4)(CO)9, 1, with PPh3 proceeded via a nucleophilic addition product, Os3(μ-H)(μ-SbPh2)(μ2,η2 -C6H4)(CO)9(PPh3), 2a.This can lose CO to give Os3(μ-H)(μ-SbPh2)(μ3,η2 -C6H4)(CO)3(PPh3), 3a, isomerize, deorthometalate to Os3(μ-SbPh2)(C6H5)(CO)9 (PPh3), 5a, or react with excess PPh3 to give an orthometalated product, Os3(μ-SbPh2)(CO)8(PPh2C6 H4)(PPh3)2, 6a. The origin of the orthometalated phenyl ring in 6a has been established via the reaction of a p-tolyl analogue of 2a, viz., Os3(μ-H)(μ-SbPh2)(μ2,η2 -C6H4)(CO)9{(p-tolyl)3P}, 2b, with PPh3.",

author = "Guizhu Chen and Mingli Deng and Lee, {Chee Keong} and Leong, {Weng Kee}",

year = "2002",

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T1 - Nucleophilic addition reactions of the osmium-antimony cluster (μ-H)Os3(CO)9(μ3-C6H4 ) (μ-SbPh2)

T2 - Orthometalation of triphenylphosphine at ambient temperature

AU - Chen, Guizhu

AU - Deng, Mingli

AU - Lee, Chee Keong

AU - Leong, Weng Kee

PY - 2002/3/18

Y1 - 2002/3/18

N2 - At ambient temperatures, the reaction of Os3(μ-H)(μ-SbPh2)(μ3,η2 -C6H4)(CO)9, 1, with PPh3 proceeded via a nucleophilic addition product, Os3(μ-H)(μ-SbPh2)(μ2,η2 -C6H4)(CO)9(PPh3), 2a.This can lose CO to give Os3(μ-H)(μ-SbPh2)(μ3,η2 -C6H4)(CO)3(PPh3), 3a, isomerize, deorthometalate to Os3(μ-SbPh2)(C6H5)(CO)9 (PPh3), 5a, or react with excess PPh3 to give an orthometalated product, Os3(μ-SbPh2)(CO)8(PPh2C6 H4)(PPh3)2, 6a. The origin of the orthometalated phenyl ring in 6a has been established via the reaction of a p-tolyl analogue of 2a, viz., Os3(μ-H)(μ-SbPh2)(μ2,η2 -C6H4)(CO)9{(p-tolyl)3P}, 2b, with PPh3.

AB - At ambient temperatures, the reaction of Os3(μ-H)(μ-SbPh2)(μ3,η2 -C6H4)(CO)9, 1, with PPh3 proceeded via a nucleophilic addition product, Os3(μ-H)(μ-SbPh2)(μ2,η2 -C6H4)(CO)9(PPh3), 2a.This can lose CO to give Os3(μ-H)(μ-SbPh2)(μ3,η2 -C6H4)(CO)3(PPh3), 3a, isomerize, deorthometalate to Os3(μ-SbPh2)(C6H5)(CO)9 (PPh3), 5a, or react with excess PPh3 to give an orthometalated product, Os3(μ-SbPh2)(CO)8(PPh2C6 H4)(PPh3)2, 6a. The origin of the orthometalated phenyl ring in 6a has been established via the reaction of a p-tolyl analogue of 2a, viz., Os3(μ-H)(μ-SbPh2)(μ2,η2 -C6H4)(CO)9{(p-tolyl)3P}, 2b, with PPh3.

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Nucleophilic addition reactions of the osmium-antimony cluster (μ-H)Os₃(CO)₉(μ₃-C₆H₄) (μ-SbPh₂): Orthometalation of triphenylphosphine at ambient temperature

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