On the mechanism of the reaction of nitric oxide with trialkylborane

## Abstract To investigate the possibility of the carbyne radical CCN in removal of nitric oxide, a detailed computational study is performed at the Gaussian‐3//B3LYP/6‐31G(d) level on the CCN + NO reaction by constructing the singlet and triplet electronic state [C~2~N~2~O] potential energy surfac

The reaction bctwcen nitric oxide and vibrationally excited ozone was studied in a fast flow reactor by monitoring the visible emission from electronically excited NO;. The antisymmetric mode (us) of O3 was excited with a Q-switched 9.6 I.tm CO2 laser, and a laser-induced signal was detected, with a

## Abstract The flash photolysis–vacuum ultraviolet kinetic absorption spectroscopy technique has been used to measure the absolute rate constant for the reaction of ground state S(^3^__P__) atoms withnitric oxide,\documentclass{article}\pagestyle{empty}\begin{document}${\rm S}\left({^{\rm 3} P} \r

There is a marked contrast between the extraordinary complexity and specificity of th e a a twe immune response and the limited number of effector d p mechanisms that it can direct. Recently, a great deal of interest has focused on the possible role of nitric oxide (NO) in one of these mechanisms. H

Amides were allowed to react with nitric oxide in aprotic and non-ethereal solvents to give the corresponding N-nittoso derivatives. The reaction was accelerated by addition of oxygen. The solvent effect revealed that the reaction did not proceed in the presence of protic media.