James A. Banister scite author profile

We report the activation of H2 and light hydrocarbons (CH4, C2H4, and C2H6) by Cp*Ir(CO)2 (Cp* = η5-C5Me5) in supercritical fluid solution. The reactions have been carried out both in the presence of a supercritical solvent (scCO2, scXe, or scCHF3) or “solvent-free” in the pure supercritical hydrocarbon (scCH4, scC2H4, or scC2H6). As far as we are aware, this is the first use of scCH4 as a solvent for photochemical reactions. The presence of H2 in scC2H6 greatly enhances the effectiveness of the C−H activation, but even in the presence of D2, Cp*Ir(CO)(H)Et and not Cp*Ir(CO)(D)Et is formed. Reaction of Cp*Ir(CO)2 with H2 occurs efficiently in CHF3, but C−H activation of C2H6 is almost suppressed in this mixed scC2H6/scCHF3 fluid, possibly through H-bonding to the metal center. A technique for recovering the products from milligram-scale reactions is described.

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Preparative-scale organometallic chemistry in supercritical fluids; isolation of [Cr(CO)5(C2H4)] as a stable solid at room temperature

Banister¹,

Howdle²,

Poliakoff³

1993

J. Chem. Soc., Chem. Commun.

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Organometallic photochemistry in supercritical fluids: Reactions of cyclopentadienyl carbonyl and phosphine carbonyl complexes of manganese with dinitrogen

Banister

George

Grubert

et al. 1994

Journal of Organometallic Chemistry

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Acoustic and photoacoustic measurements in supercritical fluids; a new approach to determining the critical point of mixtures

Попов

Banister

Баграташвили

et al. 1994

The Journal of Supercritical Fluids

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James A. Banister

Flow Reactors for Preparative Chemistry in Supercritical Fluid Solution: "Solvent-Free" Synthesis and Isolation of Cr(CO)5(C2H4) and (.eta.5-C5H5)Mn(CO)2(.eta.2-H2)

“Solvent-Free” Photochemical Activation of CH₄, C₂H₄, and C₂H₆by (C₅Me₅)Ir(CO)₂in Supercritical Fluid Solution

Preparative-scale organometallic chemistry in supercritical fluids; isolation of [Cr(CO)5(C2H4)] as a stable solid at room temperature

Organometallic photochemistry in supercritical fluids: Reactions of cyclopentadienyl carbonyl and phosphine carbonyl complexes of manganese with dinitrogen

Acoustic and photoacoustic measurements in supercritical fluids; a new approach to determining the critical point of mixtures

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James A. Banister

Flow Reactors for Preparative Chemistry in Supercritical Fluid Solution: "Solvent-Free" Synthesis and Isolation of Cr(CO)5(C2H4) and (.eta.5-C5H5)Mn(CO)2(.eta.2-H2)

“Solvent-Free” Photochemical Activation of CH4, C2H4, and C2H6by (C5Me5)Ir(CO)2in Supercritical Fluid Solution

Preparative-scale organometallic chemistry in supercritical fluids; isolation of [Cr(CO)5(C2H4)] as a stable solid at room temperature

Organometallic photochemistry in supercritical fluids: Reactions of cyclopentadienyl carbonyl and phosphine carbonyl complexes of manganese with dinitrogen

Acoustic and photoacoustic measurements in supercritical fluids; a new approach to determining the critical point of mixtures

Contact Info

Product

Resources

About

“Solvent-Free” Photochemical Activation of CH₄, C₂H₄, and C₂H₆by (C₅Me₅)Ir(CO)₂in Supercritical Fluid Solution