M. A. Ring scite author profile

Products and kinetics of the thermal decomposition of ethylsilane, under static system conditions, are reported. Both neat and propylene-inhibited reactions follow silylene chain mechanisms. Modeling fits to product yield and reactant loss data establish approximate values for the rate constants of the ethylsilylene decomposition to ethylene and silylene (kz * 2 x lo6 s-I) and the ethylsilylene isomerization to vinylsilane (ks 5 x lo2 s-l), both at 723 K. RRKh4 and thermochemical analyses of these results yield values for the high-pressure activation energy of the ethylsilylene decomposition (EtSiH -C2& + SiH2) of E2 = 25.0 kcal/mol and a heat of formation for ethylsilylene of AHdEtSiH) = 47.7 f 2.5 kcal/mol. An enthalpy group additivity for the methylene group in organosilanes and organosilylenes of AHf[C-(H2)(C)(Si)] = -1.3 f 2 kcal/mol is deduced as well as the activation energy of the isomerization of ethylsilylene to vinylsilane (EtSiH -.CHz-CHSiH3) of E8 = 35.6 f 2 kcal/mol. 2 8

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Decomposition mechanism and kinetics of n-butylsilane

Sawrey¹,

O’Neal²,

Ring³

1987

Organometallics

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ChemInform Abstract: THE GAS‐PHASE DECOMPOSITION OF METHYLSILANE. PART I. MECHANISM OF DECOMPOSITION UNDER SHOCK‐TUBE CONDITIONS

Sawrey¹,

O’Neal²,

Ring³

et al. 1984

Chemischer Informationsdienst

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M. A. Ring

Mechanism and kinetics of the homogeneous gas-phase thermal decomposition of methylgermane

Mechanism of the Thermal Decomposition of Ethylsilane

Decomposition mechanism and kinetics of n-butylsilane

ChemInform Abstract: THE GAS‐PHASE DECOMPOSITION OF METHYLSILANE. PART I. MECHANISM OF DECOMPOSITION UNDER SHOCK‐TUBE CONDITIONS

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