Kinetics of neutral transition-metal atoms in the gas phase: oxidation reactions of titanium (a3F) from 300 to 600 K

Campbell, Mark L.; McClean, Roy E.

doi:10.1021/j100132a024

Cited by 74 publications

(68 citation statements)

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“…The product of the two preexponential terms of eq 4 is on the order of 10 -10 cm 3 molecule -1 s -1 , similar to that of the discussed metal atom CO 2 reactions and other well-studied metal atom O 2 exothermic spin-allowed reactions, i.e., those of Al, 20 Ba, 21 , V, 22 Ti, 27 and Ge. 28 For all these O 2 reactions the barrier is small (j10 kJ mol -1 ), again similar to CO 2 reactions of that nature.…”

Section: Resultssupporting

confidence: 70%

Kinetics of the Sn(³P₀) Reactions with CO₂ and O₂ over Wide Temperature Ranges

Fontijn

Bajaj

1996

J. Phys. Chem.

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Rate coefficients for the title reactions have been measured by the high-temperature fast-flow reactor (HTFFR) technique. The relative concentrations of Sn ground-state atoms were monitored by laser-induced fluorescence (LIF) for Sn + CO 2 f SnO + CO and by either LIF or atomic resonance absorption for the Sn + O 2 f SnO + O reaction. Results from these two diagnostic methods agree very well. We obtained, in units of cm 3 molecule -1 s -1

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Section: Resultssupporting

confidence: 70%

Kinetics of the Sn(³P₀) Reactions with CO₂ and O₂ over Wide Temperature Ranges

Fontijn

Bajaj

1996

J. Phys. Chem.

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“…1,2,14 The resonance interaction model is inconsistent in explaining the rate constants for the reactions of Mo (and Cr and W) with N 2 O. Bimolecular reaction kinetics are observed for the reactions of Mo(a 7 S 3 ) with SO 2 and N 2 O, termolecular reaction kinetics with NO, and no reactions with CO 2 .…”

Section: Discussionmentioning

confidence: 99%

“…∆H 298 ) -103 kcal/mol 17 (13) k(T) ) (5.2 ( 1.1) × 10 -12 T 1/2 × exp[-(9.3 ( 0.2 kcal mol -1 )/RT] cm 3 s -1 (14) Mo(a 5 S 2 ) interacts with N 2 O at the collision rate. The chemical reaction in which Mo(a 5 S 2 ) orbitally correlates with MoO(X 5 Π r ), may be operative.…”

Section: ) Cr(a 7 S 3 ) Fe( 5 D 4 ) and Mo(a 7 S 3 ) With No In Armentioning

confidence: 99%

Depletion Kinetics of Mo(a⁷S₃,a⁵S₂,a⁵D_J) by N₂, SO₂, CO₂, N₂O, and NO

1996

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The gas phase collisional disappearance of Mo(a 7 S 3 ,a 5 S 2 ,a 5 D J ) in the presence of N 2 , SO 2 , CO 2 , N 2 O, and NO over the temperature range 294-621 K and in the total pressure range 10-600 Torr is reported. Mo atoms were produced by the 248 nm photodissociation of Mo(CO) 6 and MoCl 4 and detected by laser-induced fluorescence. The room temperature depletion rate constant of Mo(a 5 S 2 ) + N 2 is (2.3 ( 0.7) × 10 -11 cm 3 s -1 ; the depletion rate constants of the a 5 D J are smaller and range from (16 ( 8) × 10 -12 for Mo(a 5 D 0 ) to (0.13 ( 0.04) × 10 -12 cm 3 s -1 for the other spin-orbit states. The depletion rate of all states of Mo by SO 2 are on the order of the collision rate. Mo(a 7 S 3 ) is found to be unreactive toward CO 2 , and the rate constant for the reaction of Mo(a 7 S 3 ) with N 2 O is expressed as k(T) ) (2.0 ( 0.5) × 10 -10 exp[-(9.8 ( 0.3) kcal mol -1 /RT] cm 3 s -1 . Termolecular kinetics are observed for Mo(a 7 S 3 ) + NO with k 0 ) (2.6 ( 0.3) × 10 -29 cm 6 s -1 , k ∞ ) (5.8 ( 0.5) × 10 -11 cm 3 s -1 , and F c ) 0.72 ( 0.07 at 296 K; the reaction rates for this reaction decrease with increasing temperature. Depletion rate constants of the reactions of the excited states of Mo with CO 2 , N 2 O, and NO are on the order of 10 -12 -10 -10 cm 3 s -1 ; the depletion kinetics are complex and involve significant energy transfers. Results indicate that the electron configuration of Mo plays a role in its depletion kinetics. In all cases, Mo(4d 5 5s 1 a 5 S 2 ) depletes faster than Mo(4d 4 5s 2 a 5 D J ). The inefficient reactions of Mo(a 7 S 3 ) with CO 2 and N 2 O are attributed to the production of spin-forbidden states.

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“…character [4]. Experiments with vanadium [6], titanium [3,7], molybdenum [2,17], and niobium [25] have been performed recently which generally support this model.…”

Section: Discussionmentioning

confidence: 78%

Depletion kinetics of low-lying states of tungsten in the presence of NO, N2O, and SO2

Harter

Campbell

McClean

1997

Int. J. Chem. Kinet.

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The gas-phase reactivities of W(a 5 D J , a 7 S 3 ) with N 2 O, SO 2 , and NO in the temperature range of 295 -573 K are reported. Tungsten atoms were produced by the photodissociation of W(CO) 6 . The tungsten atoms were detected by a laser-induced fluorescence technique. The removal rate constants for the 6s 2 5d 4 a 5 D J states were found to be J dependent for all of the reactants. Removal rate constants for the 6s 1 5d 5 a 7 S 3 state were found to be fast compared to the a 5 D J states and often approached the gas kinetic rate constant. The reaction rates for all the states were found to be pressure independent with respect to the total pressure. Results are discussed in terms of the different electronic configurations of the states of tungsten.

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Kinetics of neutral transition-metal atoms in the gas phase: oxidation reactions of titanium (a3F) from 300 to 600 K

Cited by 74 publications

References 1 publication

Kinetics of the Sn(³P₀) Reactions with CO₂ and O₂ over Wide Temperature Ranges

Kinetics of the Sn(³P₀) Reactions with CO₂ and O₂ over Wide Temperature Ranges

Depletion Kinetics of Mo(a⁷S₃,a⁵S₂,a⁵D_J) by N₂, SO₂, CO₂, N₂O, and NO

Depletion kinetics of low-lying states of tungsten in the presence of NO, N2O, and SO2

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Kinetics of neutral transition-metal atoms in the gas phase: oxidation reactions of titanium (a3F) from 300 to 600 K

Cited by 74 publications

References 1 publication

Kinetics of the Sn(3P0) Reactions with CO2 and O2 over Wide Temperature Ranges

Kinetics of the Sn(3P0) Reactions with CO2 and O2 over Wide Temperature Ranges

Depletion Kinetics of Mo(a7S3,a5S2,a5DJ) by N2, SO2, CO2, N2O, and NO

Depletion kinetics of low-lying states of tungsten in the presence of NO, N2O, and SO2

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Kinetics of the Sn(³P₀) Reactions with CO₂ and O₂ over Wide Temperature Ranges

Kinetics of the Sn(³P₀) Reactions with CO₂ and O₂ over Wide Temperature Ranges

Depletion Kinetics of Mo(a⁷S₃,a⁵S₂,a⁵D_J) by N₂, SO₂, CO₂, N₂O, and NO