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Chain-Selective and Regioselective Ethylene and Styrene Dimerization Reactions Catalyzed by a Well-Defined Cationic Ruthenium Hydride Complex: New Insights on the Styrene Dimerization Mechanism
The cationic ruthenium hydride complex [(η6-C6H6)(PCy3)(CO)RuH]+BF4 − was found to be a highly regioselective catalyst for the ethylene dimerization reaction to give 2-butene products (TOF = 1910 h−1, >95% selectivity for 2-butenes). The dimerization of styrene exclusively produced the head-to-ta...
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| Published in: | Organometallics 2010-08, Vol.29 (15), p.3413-3417 |
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| Main Authors: | , |
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| Language: | English |
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| container_end_page | 3417 |
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| container_title | Organometallics |
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| creator | Lee, Do W Yi, Chae S |
| description | The cationic ruthenium hydride complex [(η6-C6H6)(PCy3)(CO)RuH]+BF4 − was found to be a highly regioselective catalyst for the ethylene dimerization reaction to give 2-butene products (TOF = 1910 h−1, >95% selectivity for 2-butenes). The dimerization of styrene exclusively produced the head-to-tail dimer (E)-PhCH(CH3)CHCHPh at an initial turnover rate of 2300 h−1. A rapid and extensive H/D exchange between the vinyl hydrogens of styrene-d 8 and 4-methoxystyrene was observed within 10 min without forming the dimer products at room temperature. The inverse deuterium isotope effect of k H/k D = 0.77 ± 0.10 was measured from the first-order plots on the dimerization reaction of styrene and styrene-d 8 in chlorobenzene at 70 °C. The pronounced carbon isotope effect on both vinyl carbons of styrene as measured by using Singleton’s method (13C(recovered)/13C(virgin) at C 1 = 1.096 and C 2 = 1.042) indicates that the C−C bond formation is the rate-limiting step for the dimerization reaction. The Eyring plot of the dimerization of styrene in the temperature range of 50−90 °C led to ΔH ⧧ = 3.3(6) kcal/mol and ΔS ⧧ = −35.5(7) eu. An electrophilic addition mechanism has been proposed for the dimerization of styrene. |
| doi_str_mv | 10.1021/om100468q |
| format | article |
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The dimerization of styrene exclusively produced the head-to-tail dimer (E)-PhCH(CH3)CHCHPh at an initial turnover rate of 2300 h−1. A rapid and extensive H/D exchange between the vinyl hydrogens of styrene-d 8 and 4-methoxystyrene was observed within 10 min without forming the dimer products at room temperature. The inverse deuterium isotope effect of k H/k D = 0.77 ± 0.10 was measured from the first-order plots on the dimerization reaction of styrene and styrene-d 8 in chlorobenzene at 70 °C. The pronounced carbon isotope effect on both vinyl carbons of styrene as measured by using Singleton’s method (13C(recovered)/13C(virgin) at C 1 = 1.096 and C 2 = 1.042) indicates that the C−C bond formation is the rate-limiting step for the dimerization reaction. The Eyring plot of the dimerization of styrene in the temperature range of 50−90 °C led to ΔH ⧧ = 3.3(6) kcal/mol and ΔS ⧧ = −35.5(7) eu. 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The dimerization of styrene exclusively produced the head-to-tail dimer (E)-PhCH(CH3)CHCHPh at an initial turnover rate of 2300 h−1. A rapid and extensive H/D exchange between the vinyl hydrogens of styrene-d 8 and 4-methoxystyrene was observed within 10 min without forming the dimer products at room temperature. The inverse deuterium isotope effect of k H/k D = 0.77 ± 0.10 was measured from the first-order plots on the dimerization reaction of styrene and styrene-d 8 in chlorobenzene at 70 °C. The pronounced carbon isotope effect on both vinyl carbons of styrene as measured by using Singleton’s method (13C(recovered)/13C(virgin) at C 1 = 1.096 and C 2 = 1.042) indicates that the C−C bond formation is the rate-limiting step for the dimerization reaction. The Eyring plot of the dimerization of styrene in the temperature range of 50−90 °C led to ΔH ⧧ = 3.3(6) kcal/mol and ΔS ⧧ = −35.5(7) eu. 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The dimerization of styrene exclusively produced the head-to-tail dimer (E)-PhCH(CH3)CHCHPh at an initial turnover rate of 2300 h−1. A rapid and extensive H/D exchange between the vinyl hydrogens of styrene-d 8 and 4-methoxystyrene was observed within 10 min without forming the dimer products at room temperature. The inverse deuterium isotope effect of k H/k D = 0.77 ± 0.10 was measured from the first-order plots on the dimerization reaction of styrene and styrene-d 8 in chlorobenzene at 70 °C. The pronounced carbon isotope effect on both vinyl carbons of styrene as measured by using Singleton’s method (13C(recovered)/13C(virgin) at C 1 = 1.096 and C 2 = 1.042) indicates that the C−C bond formation is the rate-limiting step for the dimerization reaction. The Eyring plot of the dimerization of styrene in the temperature range of 50−90 °C led to ΔH ⧧ = 3.3(6) kcal/mol and ΔS ⧧ = −35.5(7) eu. An electrophilic addition mechanism has been proposed for the dimerization of styrene.</abstract><pub>American Chemical Society</pub><doi>10.1021/om100468q</doi><tpages>5</tpages><oa>free_for_read</oa></addata></record> |
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| source | American Chemical Society:Jisc Collections:American Chemical Society Read & Publish Agreement 2022-2024 (Reading list) |
| title | Chain-Selective and Regioselective Ethylene and Styrene Dimerization Reactions Catalyzed by a Well-Defined Cationic Ruthenium Hydride Complex: New Insights on the Styrene Dimerization Mechanism |
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