N + NO2

Gaz phase reaction (type: Bimolecular reactions)

     
 
Datasheet    T(K) = 10-400 
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Channels
N + NO2 → N2 + O2
T(K): 10-400
Formula: Modified Arrhenius equation
Δ rH0 = -506.873
Δ rH298 = -506.873
2011-05-10
N + NO2 → NO + NO
T(K): 10-400
Formula: Modified Arrhenius equation
Δ rH0 = -416.106
Δ rH298 = -415.602
2011-05-10
N + NO2 → O + N2O
T(K): 10-400
Formula: Modified Arrhenius equation
Δ rH0 = -175.054
Δ rH298 = -176.098
2011-05-10
k( )
cm3s-1
Details
0.00e+0 N + NO2 → N2 + O2
T(K) = 10-400
α = 0.00E+0
β = 0.00E+0
γ = 0.00E+0
F 0 = 0
g = 0
Type uncert: lognormal
Method: Reviews and Evaluations
0.00e+0 N + NO2 → NO + NO
T(K) = 10-400
α = 0.00E+0
β = 0.00E+0
γ = 0.00E+0
F 0 = 0
g = 0
Type uncert: lognormal
Method: Reviews and Evaluations
1.10e-11 N + NO2 → O + N2O
T(K) = 10-400
α = 1.10E-11
β = 0.00E+0
γ = 0.00E+0
F 0 = 1.4
g = 10
Type uncert: lognormal
Method: Reviews and Evaluations
Reference
Origin: Datasheet
Authors:
Volume,Page:
Year:
DOI: -
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Wennberg, P. O. et al (1994)    T(K) = 223-366 
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Channels
N + NO2 → N2 + O2
T(K): 223-366
Formula: Modified Arrhenius equation
Δ rH0 = -506.873
Δ rH298 = -506.873
2009-09-30
N + NO2 → NO + NO
T(K): 223-366
Formula: Modified Arrhenius equation
Δ rH0 = -416.106
Δ rH298 = -415.602
2009-09-30
N + NO2 → O + N2O
T(K): 223-366
Formula: Modified Arrhenius equation
Δ rH0 = -175.054
Δ rH298 = -176.098
2009-09-30
k( )
cm3s-1
Details
0.00e+0 N + NO2 → N2 + O2
T(K) = 223-366
α = 0.00E+0
β = 0.00E+0
γ = 0.00E+0
F 0 = 0
g = 0
Type uncert: lognormal
Method: Measurements
Description: Disharge flow - atomic resonance fluorescence Product branching ratio determination by comparison with N+NO
0.00e+0 N + NO2 → NO + NO
T(K) = 223-366
α = 0.00E+0
β = 0.00E+0
γ = 0.00E+0
F 0 = 0
g = 0
Type uncert: lognormal
Method: Measurements
Description: Disharge flow - atomic resonance fluorescence Product branching ratio determination by comparison with N+NO
2.08e-2 N + NO2 → O + N2O
T(K) = 223-366
α = 5.80E-12
β = 0.00E+0
γ = -2.20E+2
F 0 = 1.1
g = 0
Type uncert: lognormal
Method: Measurements
Description: Disharge flow - atomic resonance fluorescence Product branching ratio determination by comparison with N+NO
Reference
Origin: Bibliography
Authors: Wennberg, P. O. et al
Volume,Page: 99, 18839
Year: 1994
DOI: -
Download citation: Bibtex RIS
 
Other database : OSU    T(K) = 10-280 
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Channels
N + NO2 → N2 + O2
T(K): 10-280
Formula: Modified Arrhenius equation
Δ rH0 = -506.873
Δ rH298 = -506.873
2009-03-27
N + NO2 → NO + NO
T(K): 10-280
Formula: Modified Arrhenius equation
Δ rH0 = -416.106
Δ rH298 = -415.602
2009-03-27
N + NO2 → O + N2O
T(K): 10-280
Formula: Modified Arrhenius equation
Δ rH0 = -175.054
Δ rH298 = -176.098
2009-03-27
k( )
cm3s-1
Details
1.00e-12 N + NO2 → N2 + O2
T(K) = 10-280
α = 1.00E-12
β = 0.00E+0
γ = 0.00E+0
F 0 = 2
g = 0
Type uncert: lognormal
Method: Estimation
1.00e-12 N + NO2 → NO + NO
T(K) = 10-280
α = 1.00E-12
β = 0.00E+0
γ = 0.00E+0
F 0 = 2
g = 0
Type uncert: lognormal
Method: Estimation
2.10e-11 N + NO2 → O + N2O
T(K) = 10-280
α = 2.10E-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:
Volume,Page:
Year:
DOI: -
Download citation:
 
Sander, S.P. et al (2011)    T(K) = 200-500 
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Channels
N + NO2 → O + N2O
T(K): 200-500
Formula: Modified Arrhenius equation
Δ rH0 = -175.054
Δ rH298 = -176.098
2012-08-01
k( )
cm3s-1
Details
2.08e-2 N + NO2 → O + N2O
T(K) = 200-500
α = 5.80E-12
β = 0.00E+0
γ = -2.20E+2
F 0 = 1.5
g = 100
Type uncert: lognormal
Method: Reviews and Evaluations
Reference
Origin: Bibliography
Authors: Sander, S.P. et al
Volume,Page: 10-6
Year: 2011
DOI: -
Download citation: Bibtex RIS