CH₂ + N

Gaz phase reaction (type: Bimolecular reactions)

Datasheet T(K) = 10-300

Show/Hide those values

Channels	T(K)	Formula	Δ_rH (kJ.mol-1)	Date	Channels
CH₂ + N → H + HCN	10-300	Modified Arrhenius equation	Δ_rH₀ = -518.17 Δ _rH₂₉₈ = -516.083	2013-10-08	CH₂ + N → H + HCN T(K): 10-300 Formula: Modified Arrhenius equation Δ _rH₀ = -518.17 Δ _rH₂₉₈ = -516.083 2013-10-08
CH₂ + N → H + HNC	10-300	Modified Arrhenius equation	Δ_rH₀ = -456.316 Δ _rH₂₉₈ = -453.974	2013-10-08	CH₂ + N → H + HNC T(K): 10-300 Formula: Modified Arrhenius equation Δ _rH₀ = -456.316 Δ _rH₂₉₈ = -453.974 2013-10-08

Show details See/hide publications

Channel	T(K)	k( ) cm³s^-1	α	β	γ	F₀	g	Type uncert	Details
CH₂ + N → H + HCN	10-300	2.80e-11	5.00E-11	1.70E-1	0.00E+0	1.5	0	lognormal	CH₂ + N → H + HCN T(K) = 10-300 α = 5.00E-11 β = 1.70E-1 γ = 0.00E+0 F ₀ = 1.5 g = 0 Type uncert: lognormal Method: Reviews and Evaluations
	Method: Reviews and Evaluations
CH₂ + N → H + HNC	10-300	1.68e-11	3.00E-11	1.70E-1	0.00E+0	1.5	0	lognormal	CH₂ + N → H + HNC T(K) = 10-300 α = 3.00E-11 β = 1.70E-1 γ = 0.00E+0 F ₀ = 1.5 g = 0 Type uncert: lognormal Method: Reviews and Evaluations
	Method: Reviews and Evaluations

Origin	Authors	Volume,Page	Year	Journal / Thesis / Book	DOI	Download citation	Reference
Datasheet
Origin: Datasheet Authors: Volume,Page: Year: DOI: - Download citation:

Other database : OSU T(K) = 10-300

Show/Hide those values

Channels	T(K)	Formula	Δ_rH (kJ.mol-1)	Date	Channels
CH₂ + N → H + HCN	10-300	Modified Arrhenius equation	Δ_rH₀ = -518.17 Δ _rH₂₉₈ = -516.083	2009-03-27	CH₂ + N → H + HCN T(K): 10-300 Formula: Modified Arrhenius equation Δ _rH₀ = -518.17 Δ _rH₂₉₈ = -516.083 2009-03-27
CH₂ + N → H + HNC	10-300	Modified Arrhenius equation	Δ_rH₀ = -456.316 Δ _rH₂₉₈ = -453.974	2009-03-27	CH₂ + N → H + HNC T(K): 10-300 Formula: Modified Arrhenius equation Δ _rH₀ = -456.316 Δ _rH₂₉₈ = -453.974 2009-03-27

Show details See/hide publications

Channel	T(K)	k( ) cm³s^-1	α	β	γ	F₀	g	Type uncert	Details
CH₂ + N → H + HCN	10-300	2.24e-11	3.95E-11	1.67E-1	0.00E+0	1.5	0	lognormal	CH₂ + N → H + HCN T(K) = 10-300 α = 3.95E-11 β = 1.67E-1 γ = 0.00E+0 F ₀ = 1.5 g = 0 Type uncert: lognormal Method: Calculations Description: Branching ratios HCN/HNC are 0.5 each because the exothermicity of the reaction redistributes the products.
	Method: Calculations Description: Branching ratios HCN/HNC are 0.5 each because the exothermicity of the reaction redistributes the products.
CH₂ + N → H + HNC	10-300	2.24e-11	3.95E-11	1.67E-1	0.00E+0	1.5	0	lognormal	CH₂ + N → H + HNC T(K) = 10-300 α = 3.95E-11 β = 1.67E-1 γ = 0.00E+0 F ₀ = 1.5 g = 0 Type uncert: lognormal Method: Calculations Description: Branching ratios HCN/HNC are 0.5 each because the exothermicity of the reaction redistributes the products.
	Method: Calculations Description: Branching ratios HCN/HNC are 0.5 each because the exothermicity of the reaction redistributes the products.

Origin	Authors	Volume,Page	Year	Journal / Thesis / Book	DOI	Download citation	Reference
Other database : OSU	Herbst, E. et al	311,869-876	2000	Monthly Notices of The Royal Astronomical Society	DOI	Bibtex RIS
Origin: Other database : OSU Authors: Herbst, E. et al Volume,Page: 311,869-876 Year: 2000 DOI: DOI Download citation: Bibtex RIS

Hebrard, E. et al (2009) T(K) = 50-200

Show/Hide those values

Channels	T(K)	Formula	Δ_rH (kJ.mol-1)	Date	Channels
CH₂ + N → H + HCN	50-200	Modified Arrhenius equation	Δ_rH₀ = -518.17 Δ _rH₂₉₈ = -516.083	2012-07-27	CH₂ + N → H + HCN T(K): 50-200 Formula: Modified Arrhenius equation Δ _rH₀ = -518.17 Δ _rH₂₉₈ = -516.083 2012-07-27

Show details See/hide publications

Channel	T(K)	k( ) cm³s^-1	α	β	γ	F₀	g	Type uncert	Details
CH₂ + N → H + HCN	50-200	1.60e-11	1.60E-11	0.00E+0	0.00E+0	2	100	lognormal	CH₂ + N → H + HCN T(K) = 50-200 α = 1.60E-11 β = 0.00E+0 γ = 0.00E+0 F ₀ = 2 g = 100 Type uncert: lognormal Method: Reviews and Evaluations Description: Taken from Tsai and McFadden [1990]. Used in Hébrard et al. [2009]
	Method: Reviews and Evaluations Description: Taken from Tsai and McFadden [1990]. Used in Hébrard et al. [2009]

Origin	Authors	Volume,Page	Year	Journal / Thesis / Book	DOI	Download citation	Reference
Bibliography	Hebrard, E. et al	113,11227-11237	2009	J. Phys. Chem. A	DOI	Bibtex RIS
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

Show/Hide those values

Channels	T(K)	Formula	Δ_rH (kJ.mol-1)	Date	Channels
CH₂ + N → CH + NH	10-800	Modified Arrhenius equation	Δ_rH₀ = 87.38 Δ _rH₂₉₈ = 90.712	2014-03-05	CH₂ + N → CH + NH T(K): 10-800 Formula: Modified Arrhenius equation Δ _rH₀ = 87.38 Δ _rH₂₉₈ = 90.712 2014-03-05

Show details See/hide publications

Channel	T(K)	k( ) cm³s^-1	α	β	γ	F₀	g	Type uncert	Details
CH₂ + N → CH + NH	10-800	0.00e+0	9.96E-13	0.00E+0	2.04E+4	2	0	lognormal	CH₂ + N → CH + NH T(K) = 10-800 α = 9.96E-13 β = 0.00E+0 γ = 2.04E+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 listed in the NIST.
	Method: Estimation Description: Reactions used in the high temperature network for ISM applications by Harada et al. (2010). Value listed in the NIST.

Origin	Authors	Volume,Page	Year	Journal / Thesis / Book	DOI	Download citation	Reference
Other database : UdFA	Mayer, S.W. et al	11,837 - 844	1967	Symposium (International) on Combustion	DOI	Bibtex RIS
Origin: Other database : UdFA Authors: Mayer, S.W. et al Volume,Page: 11,837 - 844 Year: 1967 DOI: DOI Download citation: Bibtex RIS