CH2 + O

Gaz phase reaction (type: Bimolecular reactions)

     
 
Datasheet    T(K) = 10-300 
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Channels
CH2 + O → H + H + CO
T(K): 10-300
Formula: Modified Arrhenius equation
Δ rH0 = -538.154
Δ rH298 = -532.907
2014-12-03
CH2 + O → CO + H2
T(K): 10-300
Formula: Modified Arrhenius equation
Δ rH0 = -754.188
Δ rH298 = -750.905
2014-12-03
CH2 + O → H + HCO
T(K): 10-300
Formula: Modified Arrhenius equation
Δ rH0 = -382.413
Δ rH298 = -380.077
2014-12-03
CH2 + O → CH + OH
T(K): 10-300
Formula: Modified Arrhenius equation
Δ rH0 = -10.775
Δ rH298 = -7.2750000000001
2014-12-03
k( )
cm3s-1
Details
1.00e-10 CH2 + O → H + H + CO
T(K) = 10-300
α = 1.00E-10
β = 0.00E+0
γ = 0.00E+0
F 0 = 1.4
g = 3
Type uncert: lognormal
Method: Reviews and Evaluations
4.00e-11 CH2 + O → CO + H2
T(K) = 10-300
α = 4.00E-11
β = 0.00E+0
γ = 0.00E+0
F 0 = 1.6
g = 3
Type uncert: lognormal
Method: Reviews and Evaluations
2.00e-12 CH2 + O → H + HCO
T(K) = 10-300
α = 2.00E-12
β = 0.00E+0
γ = 0.00E+0
F 0 = 3
g = 3
Type uncert: lognormal
Method: Reviews and Evaluations
0.00e+0 CH2 + O → CH + OH
T(K) = 10-300
α = 0.00E+0
β = 0.00E+0
γ = 0.00E+0
F 0 = 0
g = 0
Type uncert: lognormal
Method: Reviews and Evaluations
Reference
Origin: Datasheet
Authors:
Volume,Page:
Year:
DOI: -
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Baulch, D. L. et al (2005)    T(K) = 290-2500 
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Channels
CH2 + O → H + H + CO
T(K): 290-2500
Formula: Modified Arrhenius equation
Δ rH0 = -538.154
Δ rH298 = -532.907
2012-08-02
CH2 + O → CO + H2
T(K): 290-2500
Formula: Modified Arrhenius equation
Δ rH0 = -754.188
Δ rH298 = -750.905
2012-08-02
k( )
cm3s-1
Details
3.83e-22 CH2 + O → H + H + CO
T(K) = 290-2500
α = 2.04E-10
β = 0.00E+0
γ = 2.70E+2
F 0 = 1.17
g = 25
Type uncert: lognormal
Method: Reviews and Evaluations
2.56e-22 CH2 + O → CO + H2
T(K) = 290-2500
α = 1.36E-10
β = 0.00E+0
γ = 2.70E+2
F 0 = 1.17
g = 25
Type uncert: lognormal
Method: Reviews and Evaluations
Reference
Origin: Bibliography
Authors: Baulch, D. L. et al
Volume,Page: 34, 757-1397
Year: 2005
DOI: DOI
Download citation: Bibtex RIS
 
Other database : OSU    T(K) = 10-280 
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Channels
CH2 + O → H + H + CO
T(K): 10-280
Formula: Modified Arrhenius equation
Δ rH0 = -538.154
Δ rH298 = -532.907
2009-03-27
CH2 + O → CO + H2
T(K): 10-280
Formula: Modified Arrhenius equation
Δ rH0 = -754.188
Δ rH298 = -750.905
2009-03-27
k( )
cm3s-1
Details
1.20e-10 CH2 + O → H + H + CO
T(K) = 10-280
α = 1.20E-10
β = 0.00E+0
γ = 0.00E+0
F 0 = 1.25
g = 0
Type uncert: lognormal
Method: Estimation
8.00e-11 CH2 + O → CO + H2
T(K) = 10-280
α = 8.00E-11
β = 0.00E+0
γ = 0.00E+0
F 0 = 2
g = 0
Type uncert: lognormal
Method: Estimation
Reference
Origin: Other database : OSU
Authors:
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Hebrard, E. et al (2009)    T(K) = 50-200 
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Channels
CH2 + O → H + H + CO
T(K): 50-200
Formula: Modified Arrhenius equation
Δ rH0 = -538.154
Δ rH298 = -532.907
2012-07-27
k( )
cm3s-1
Details
2.01e-10 CH2 + O → H + H + CO
T(K) = 50-200
α = 2.01E-10
β = 0.00E+0
γ = 0.00E+0
F 0 = 10
g = 100
Type uncert: lognormal
Method: Reviews and Evaluations
Description: Taken from Atkinson et al. [1992]. Used in Hébrard et al. [2009]
Reference
Origin: Bibliography
Authors: Hebrard, E. et al
Volume,Page: 113,11227-11237
Year: 2009
DOI: DOI
Download citation: Bibtex RIS
 
Other database : UdFA    T(K) = 10-800 
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Channels
CH2 + O → H + HCO
T(K): 10-800
Formula: Modified Arrhenius equation
Δ rH0 = -382.413
Δ rH298 = -380.077
2014-03-05
k( )
cm3s-1
Details
5.01e-11 CH2 + O → H + HCO
T(K) = 10-800
α = 5.01E-11
β = 0.00E+0
γ = 0.00E+0
F 0 = 2
g = 0
Type uncert: lognormal
Method: Estimation
Description: Reactions used in the high temperature network for ISM applications by Harada et al. (2010). Value listed in the NIST.
Reference
Origin: Other database : UdFA
Authors: Tsuboi, T. et al
Volume,Page: 42,61 - 76
Year: 1981
DOI: DOI
Download citation: Bibtex RIS
 
Other database : UdFA    T(K) = 10-800 
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Channels
CH2 + O → CH + OH
T(K): 10-800
Formula: Modified Arrhenius equation
Δ rH0 = -10.775
Δ rH298 = -7.2750000000001
2014-03-05
k( )
cm3s-1
Details
0.00e+0 CH2 + O → CH + OH
T(K) = 10-800
α = 4.98E-10
β = 0.00E+0
γ = 6.00E+3
F 0 = 2
g = 0
Type uncert: lognormal
Method: Estimation
Description: Reactions used in the high temperature network for ISM applications by Harada et al. (2010). Value not listed in the NIST.
Reference
Origin: Other database : UdFA
Authors:
Volume,Page:
Year:
DOI: -
Download citation: