The Temperature Dependence of the Ratio kd/kc for Ethyl Radicals

Hooper, David G.; Simon, M.; Back, M. H.

doi:10.1139/v75-170

Cited by 8 publications

(11 citation statements)

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“…For ethyl radicals, Pd/Pc is well known [3] [22] [23] it is equal to the temperature independent gas phase value of ca. 0.15 [51], and it increases by somewhat less than a factor of two if determined in viscous ethylene glycol [22], or if an external pressure of up to 600 MPa is applied to the solvent [23]. However, for -181" in liquid methane, Gillis [52] reported Pd/Pc= 1 for C2HD4 radicals.…”

Section: R H (18)mentioning

confidence: 99%

The kinetics of the bimolecular self‐reaction of t‐butyl radicals in solution. II. Disproportionation/combination ratios

Schuh

Fischer

1978

Helvetica Chimica Acta

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Section: R H (18)mentioning

confidence: 99%

The kinetics of the bimolecular self‐reaction of t‐butyl radicals in solution. II. Disproportionation/combination ratios

Schuh

Fischer

1978

Helvetica Chimica Acta

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“…The small difference in zero point energies leads to the slight increase in the ratio at low temperatures. This increase is not clearly established experimentally (24). The illustrated model is not intended to be exact, but to indicate that most of the data were compatible with a single, reasonable explanation.…”

Section: Reactions [5a] and [5b]mentioning

confidence: 83%

Relative rates of radical–radical processes in the pyrolysis of ethane

Pacey¹,

Wimalasena²

1984

Can. J. Chem.

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, 293 (1984). Ethane has been pyrolysed in a flow system at 900 to 963 K , at residence times from 0.5 to 50 s and with [CIHh] from 1 x lo-' to 4 x 10-"01 L-'. From measurements of yields of minor products at 902 K, it is concluded that the combination . Rate parameters are also reported for the C-C scission in CIH6, for the abstraction of H from C2Hh by CH3, for the decomposition of C2HS, and for the reaction of CZH5 at PbO surfaces.

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“…The primary products of the photolysis can be accounted for by the three primary photodissociation reactions, [l], [2], and [3] followed by a sequence of reactions of hydrogen atoms and…”

Section: The Mechanism Of the Photolysismentioning

confidence: 99%

“…If reactions [4] to [ l l ] are assumed to account for all the primary products (i.e., neglecting C2H6 formation by reaction [13]), the quantum yields for reactions [ 1 1, [2], and [3] can be estimated from the following expressions:…”

Section: Quantum Yields Of the Primary Photodissociation Processesmentioning

confidence: 99%

“…It is seen that @(I) is given by the total yield of C2H2 minus that formed in reaction [2]; @(2) is equal to the total yield of C2H5 radicals (which in turn is a measure of the H a t~m~~i e l d ) , minus the H atoms formed in [3]; @(3) is given by the yield of C2H3 radicals found in the products. Values of these primary photodissociation quantum yields calculated in this way, using initial extrapolated product yields, are shown in Table 3.…”

Section: Quantum Yields Of the Primary Photodissociation Processesmentioning

confidence: 99%

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The photolysis of ethylene at 193 nm

Giroux¹,

Back²,

Back³

1989

Can. J. Chem.

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The photolysis of ethylene has been studied at pressures from 50 to 3000 Torr using a pulsed ArF excimer laser at 193.3 nm. Major products were acetylene, n-butane, 1-butene, ethane, and 1,3-butadiene, with smaller amounts of propane, propene, methane, and allene. Quantum yields varied with pressure and reaction time; the latter dependence is ascribed to secondary photolysis of butene and butadiene. The reaction products are accounted for by three primary processes:[Formula: see text]followed by reactions of H, [Formula: see text] and C2H5 radicals. The vibrationally excited C2H3radical can decompose to H + C2H2 or can be stabilized by collision. The pressure dependence of the quantum yields of the primary processes [1]–[3] is complex, and a photodissociation mechanism involving several intermediates and excited states of ethylene is presented to account for the present results and previous measurements at 185 nm. Keywords: ethylene, uv photolysis.

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The Temperature Dependence of the Ratio k_d/k_c for Ethyl Radicals

Cited by 8 publications

References 9 publications

The kinetics of the bimolecular self‐reaction of t‐butyl radicals in solution. II. Disproportionation/combination ratios

The kinetics of the bimolecular self‐reaction of t‐butyl radicals in solution. II. Disproportionation/combination ratios

Relative rates of radical–radical processes in the pyrolysis of ethane

The photolysis of ethylene at 193 nm

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