5275-46-7Relevant articles and documents
Kinetics and Mechanism of the Nitrosation of 2-Nitropropane, 1-Nitropropane, and Nitroethane
Iglesias, Emilia,Williams, D. Lyn H.
, p. 1035 - 1040 (1988)
The kinetics of the nitrosation of the nitronic acids derived from 2-nitropropane, 1-nitropropane, and nitroethane, in aqueous perchloric acid using nitrous acid, show a first-order dependence upon the and a curved acidity dependence.The results are readily explained by a mechanism in which nitrosation (by H2NO2(1+) or NO(1+)) occurs initially at an oxygen atom, and releasing a proton.The O-nitroso intermediate, which is formed reversibly, then undergoes an internal O- to C-nitroso group rearrangement to give the nitroso nitro product (pseudonitrole) from the secondary nitro compound, and (after tautomerisation) the nitro oxime product (nitrolic acid) from the primary nitro compounds.Neither the first nor the second step is fully rate-limiting, under the conditions used, but the first step is probably close to the diffusion-controlled limit.The reactions are strongly catalysed by Cl(1-), Br(1-), and SCN(1-), but the measured rate constants show a curved dependence on and , suggesting that the intermediates are formed reversibly.However, the reactions are first-order in , so that reaction now occurs via ClNO, BrNO, and ONSCN at the carbon atom of the nitronic acid.The results are discussed, together with those in the literature which describe nitrosation reaction where different nitrosating agents attack the same molecule at different sites.In all three cases studied a further, much slower reaction occurs, which results in the formation of more of the same products (when 0 0).This reaction which is first-order in and , but is not chloride or bromide ion-catalysed, also occurs when no nitrous acid is added.The product is formed by the slow hydrolysis of the protonated form of the nitronic acid, releasing nitrous acid, which reacts further with the unchanged nitronic acid.
Establishment of the C-NO bond dissociation energy scale in solution and its application in analyzing the trend of NO transfer from C-nitroso compound to thiols
Li, Xin,Deng, Hui,Zhu, Xiao-Qing,Wang, Xiaoxiao,Liang, Hao,Cheng, Jin-Pei
experimental part, p. 4472 - 4478 (2009/09/30)
(Chemical Equation Presented) The first set of experimentally determined C-NO bond homolytic and heterolytic dissociation enthalpies in solution is derived by using direct titration calorimetry combined with appropriate electrode potentials through thermodynamic cycles. The homolytic bond dissociation energy scale (BDEs) of the corresponding C-NO bonds in the gas phase was also calculated at the MP2/6-311+G**//B3LYP/6-31G* level and BP86/6-31G*//B3LYP/6-31G* level of theory for the purpose of comparison. The C-NO and S-NO bond thermodynamic parameters were used to predict the trend of NO transfer from C-nitroso substrates to thiols in acetonitrile solution.
