CN + O
Gaz phase reaction (type: Bimolecular reactions)
Datasheet T(K) = 10-300
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| Channels | |||||
|---|---|---|---|---|---|
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CN + O
→
N + CO
|
10-300 | Modified Arrhenius equation |
ΔrH0 = -330.85
Δ rH298 = -325.705 |
2013-10-10 |
CN + O → N + CO
T(K): 10-300 Formula: Modified Arrhenius equation Δ rH0 = -330.85 Δ rH298 = -325.705 2013-10-10 |
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|
k(
)
cm3s-1 |
Details | ||||||||
|---|---|---|---|---|---|---|---|---|---|
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CN + O
→
N + CO
|
10-300 | 5.00e-11 | 5.00E-11 | 0.00E+0 | 0.00E+0 | 3 | 0 | lognormal |
CN + O → N + CO
T(K) = 10-300 α = 5.00E-11 β = 0.00E+0 γ = 0.00E+0 F 0 = 3 g = 0 Type uncert: lognormal Method: Reviews and Evaluations Description: The reaction produces also excited atomic nitrogen. For the sake of simplicity, the two production channels have been added. |
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Method: Reviews and Evaluations
Description: The reaction produces also excited atomic nitrogen. For the sake of simplicity, the two production channels have been added. |
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Other database : OSU T(K) = 10-280
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| Channels | |||||
|---|---|---|---|---|---|
|
CN + O
→
N + CO
|
10-280 | Modified Arrhenius equation |
ΔrH0 = -330.85
Δ rH298 = -325.705 |
2009-03-27 |
CN + O → N + CO
T(K): 10-280 Formula: Modified Arrhenius equation Δ rH0 = -330.85 Δ rH298 = -325.705 2009-03-27 |
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|
k(
)
cm3s-1 |
Details | ||||||||
|---|---|---|---|---|---|---|---|---|---|
|
CN + O
→
N + CO
|
10-280 | 4.00e-11 | 4.00E-11 | 0.00E+0 | 0.00E+0 | 2 | 0 | lognormal |
CN + O → N + CO
T(K) = 10-280 α = 4.00E-11 β = 0.00E+0 γ = 0.00E+0 F 0 = 2 g = 0 Type uncert: lognormal Method: Estimation |
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Method: Estimation
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| Reference | |||||||
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| Other database : OSU | |||||||
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Origin: Other database : OSU
Authors: Volume,Page: Year: DOI: - Download citation: |
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Hebrard, E. et al (2009) T(K) = 50-200
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| Channels | |||||
|---|---|---|---|---|---|
|
CN + O
→
N + CO
|
50-200 | Modified Arrhenius equation |
ΔrH0 = -330.85
Δ rH298 = -325.705 |
2012-07-27 |
CN + O → N + CO
T(K): 50-200 Formula: Modified Arrhenius equation Δ rH0 = -330.85 Δ rH298 = -325.705 2012-07-27 |
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|
k(
)
cm3s-1 |
Details | ||||||||
|---|---|---|---|---|---|---|---|---|---|
|
CN + O
→
N + CO
|
50-200 | 1.69e-11 | 1.69E-11 | 0.00E+0 | 0.00E+0 | 5 | 100 | lognormal |
CN + O → N + CO
T(K) = 50-200 α = 1.69E-11 β = 0.00E+0 γ = 0.00E+0 F 0 = 5 g = 100 Type uncert: lognormal Method: Reviews and Evaluations Description: Taken from Perry et al. [1985]. Used in Hébrard et al. [2009] |
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Method: Reviews and Evaluations
Description: Taken from Perry et al. [1985]. Used in Hébrard et al. [2009] |
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Other database : OSU T(K) = 10-800
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| Channels | |||||
|---|---|---|---|---|---|
|
CN + O
→
C + NO
|
10-800 | Modified Arrhenius equation |
ΔrH0 = 114.11
Δ rH298 = 120.086 |
2014-03-05 |
CN + O → C + NO
T(K): 10-800 Formula: Modified Arrhenius equation Δ rH0 = 114.11 Δ rH298 = 120.086 2014-03-05 |
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|
k(
)
cm3s-1 |
Details | ||||||||
|---|---|---|---|---|---|---|---|---|---|
|
CN + O
→
C + NO
|
10-800 | 0.00e+0 | 3.81E-11 | 5.00E-1 | 1.45E+4 | 2 | 0 | lognormal |
CN + O → C + NO
T(K) = 10-800 α = 3.81E-11 β = 5.00E-1 γ = 1.45E+4 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. |
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Method: Estimation
Description: Reactions used in the high temperature network for ISM applications by Harada et al. (2010). Value not listed in the NIST. |
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