The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates

The electrophilic reactivity of the pentacyanonitrosylferrate(II) ion, [Fe(CN)5NO]2-, toward hydrazine (Hz) and substituted hydrazines (MeHz, 1, 1-Me2Hz, and 1,2-Me2Hz) has been studied by means of stoichiometric and kinetic experiments (pH 6-10). The reaction of Hz led to N2O and NH3, with similar...

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Autores principales: Gutiérrez, M.M., Amorebieta, V.T., Estiú, G.L., Olabe, J.A.
Formato: JOUR
Materias:
Electrophilic reactivity
Decomposition
Derivatives
Enzymes
Hydrazine
Rate constants
Chemical reactions
amine
ammonium derivative
ferric ion
hydrazine
hydrazine derivative
hydroxylamine
nitrate
nitric oxide
nitric oxide reductase
nitrite
nitroprusside sodium
nitrous oxide
pentacyanonitrosylferrate(ii)
tempol
unclassified drug
article
binding kinetics
catalysis
chemical binding
chemical reaction
chemical reaction kinetics
computer prediction
decomposition
electric conductivity
intermethod comparison
isomerism
methylation
product recovery
reaction analysis
reaction optimization
reduction
stoichiometry
theory
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_00027863_v124_n35_p10307_Gutierrez
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
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spelling todo:paper_00027863_v124_n35_p10307_Gutierrez2023-10-03T13:53:33Z The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates Gutiérrez, M.M. Amorebieta, V.T. Estiú, G.L. Olabe, J.A. Electrophilic reactivity Decomposition Derivatives Enzymes Hydrazine Rate constants Chemical reactions amine ammonium derivative ferric ion hydrazine hydrazine derivative hydroxylamine nitrate nitric oxide nitric oxide reductase nitrite nitroprusside sodium nitrous oxide pentacyanonitrosylferrate(ii) tempol unclassified drug article binding kinetics catalysis chemical binding chemical reaction chemical reaction kinetics computer prediction decomposition electric conductivity intermethod comparison isomerism methylation product recovery reaction analysis reaction optimization reduction stoichiometry theory The electrophilic reactivity of the pentacyanonitrosylferrate(II) ion, [Fe(CN)5NO]2-, toward hydrazine (Hz) and substituted hydrazines (MeHz, 1, 1-Me2Hz, and 1,2-Me2Hz) has been studied by means of stoichiometric and kinetic experiments (pH 6-10). The reaction of Hz led to N2O and NH3, with similar paths for MeHz and 1,1-Me2Hz, which form the corresponding amines. A parallel path has been found for MeHz, leading to N2O, N2, and MeOH. The reaction of 1,2-Me2Hz follows a different route, characterized by azomethane formation (MeNNMe), full reduction of nitrosyl to NH3, and intermediate detection of [Fe(CN)5NO]3-. In the above reactions, [Fe(CN)5H2O]3- was always a product, allowing the system to proceed catalytically for nitrite reduction, an issue relevant in relation to the behavior of the nitrite and nitric oxide reductase enzymes. The mechanism comprises initial reversible adduct formation through the binding of the nucleophile to the N-atom of nitrosyl. The adducts decompose through OH- attack giving the final products, without intermediate detection. Rate constants for the adduct-formation steps (k = 0.43 M-1 s-1, 25 °C for Hz) decrease with methylation by about an order of magnitude. Among the different systems studied, one-, two-, and multielectron reductions of bound NO+ are analyzed comparatively, with consideration of the role of NO, HNO (nitroxyl), and hydroxylamine as bound intermediates. A DFT study (B3LYP) of the reaction profile allows one to characterize intermediates in the potential hypersurface. These are the initial adducts, as well as their decomposition products, the η1- and η2-linkage isomers of N2O. Fil:Olabe, J.A. Universidad de Buenos Aires. Facultad de Ciencias Exactas y Naturales; Argentina. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00027863_v124_n35_p10307_Gutierrez
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic Electrophilic reactivity
Decomposition
Derivatives
Enzymes
Hydrazine
Rate constants
Chemical reactions
amine
ammonium derivative
ferric ion
hydrazine
hydrazine derivative
hydroxylamine
nitrate
nitric oxide
nitric oxide reductase
nitrite
nitroprusside sodium
nitrous oxide
pentacyanonitrosylferrate(ii)
tempol
unclassified drug
article
binding kinetics
catalysis
chemical binding
chemical reaction
chemical reaction kinetics
computer prediction
decomposition
electric conductivity
intermethod comparison
isomerism
methylation
product recovery
reaction analysis
reaction optimization
reduction
stoichiometry
theory
spellingShingle Electrophilic reactivity
Decomposition
Derivatives
Enzymes
Hydrazine
Rate constants
Chemical reactions
amine
ammonium derivative
ferric ion
hydrazine
hydrazine derivative
hydroxylamine
nitrate
nitric oxide
nitric oxide reductase
nitrite
nitroprusside sodium
nitrous oxide
pentacyanonitrosylferrate(ii)
tempol
unclassified drug
article
binding kinetics
catalysis
chemical binding
chemical reaction
chemical reaction kinetics
computer prediction
decomposition
electric conductivity
intermethod comparison
isomerism
methylation
product recovery
reaction analysis
reaction optimization
reduction
stoichiometry
theory
Gutiérrez, M.M.
Amorebieta, V.T.
Estiú, G.L.
Olabe, J.A.
The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates
topic_facet Electrophilic reactivity
Decomposition
Derivatives
Enzymes
Hydrazine
Rate constants
Chemical reactions
amine
ammonium derivative
ferric ion
hydrazine
hydrazine derivative
hydroxylamine
nitrate
nitric oxide
nitric oxide reductase
nitrite
nitroprusside sodium
nitrous oxide
pentacyanonitrosylferrate(ii)
tempol
unclassified drug
article
binding kinetics
catalysis
chemical binding
chemical reaction
chemical reaction kinetics
computer prediction
decomposition
electric conductivity
intermethod comparison
isomerism
methylation
product recovery
reaction analysis
reaction optimization
reduction
stoichiometry
theory
description The electrophilic reactivity of the pentacyanonitrosylferrate(II) ion, [Fe(CN)5NO]2-, toward hydrazine (Hz) and substituted hydrazines (MeHz, 1, 1-Me2Hz, and 1,2-Me2Hz) has been studied by means of stoichiometric and kinetic experiments (pH 6-10). The reaction of Hz led to N2O and NH3, with similar paths for MeHz and 1,1-Me2Hz, which form the corresponding amines. A parallel path has been found for MeHz, leading to N2O, N2, and MeOH. The reaction of 1,2-Me2Hz follows a different route, characterized by azomethane formation (MeNNMe), full reduction of nitrosyl to NH3, and intermediate detection of [Fe(CN)5NO]3-. In the above reactions, [Fe(CN)5H2O]3- was always a product, allowing the system to proceed catalytically for nitrite reduction, an issue relevant in relation to the behavior of the nitrite and nitric oxide reductase enzymes. The mechanism comprises initial reversible adduct formation through the binding of the nucleophile to the N-atom of nitrosyl. The adducts decompose through OH- attack giving the final products, without intermediate detection. Rate constants for the adduct-formation steps (k = 0.43 M-1 s-1, 25 °C for Hz) decrease with methylation by about an order of magnitude. Among the different systems studied, one-, two-, and multielectron reductions of bound NO+ are analyzed comparatively, with consideration of the role of NO, HNO (nitroxyl), and hydroxylamine as bound intermediates. A DFT study (B3LYP) of the reaction profile allows one to characterize intermediates in the potential hypersurface. These are the initial adducts, as well as their decomposition products, the η1- and η2-linkage isomers of N2O.
format JOUR
author Gutiérrez, M.M.
Amorebieta, V.T.
Estiú, G.L.
Olabe, J.A.
author_facet Gutiérrez, M.M.
Amorebieta, V.T.
Estiú, G.L.
Olabe, J.A.
author_sort Gutiérrez, M.M.
title The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates
title_short The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates
title_full The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates
title_fullStr The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates
title_full_unstemmed The electrophilic reactions of pentacyanonitrosylferrate(II) with hydrazine and substituted derivatives. Catalytic reduction of nitrite and theoretical prediction of η1-, η2-N2O bound intermediates
title_sort electrophilic reactions of pentacyanonitrosylferrate(ii) with hydrazine and substituted derivatives. catalytic reduction of nitrite and theoretical prediction of η1-, η2-n2o bound intermediates
url http://hdl.handle.net/20.500.12110/paper_00027863_v124_n35_p10307_Gutierrez
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