Ibanez, J. published the artcileDirect amination of 1-octanol with NH3 over Ag-Co/Al2O3: Promoting effect of the H2 pressure on the reaction rate, Product Details of C8H18O, the main research area is silver cobalt alumina ammonia octanol direct amination reaction rate.
The kinetics of the direct gas-phase amination reaction of 1-octanol with ammonia was studied over a Ag-Co/Al2O3 catalyst. An exhaustive exptl. dataset was acquired on a Flowrence unit using a full factorial exptl. design, covering the effect and interactions of the 1-octanol, ammonia and hydrogen partial pressures in the range 160-180 °C. An apparent zero order was obtained for both reactants (i.e. 1-octanol and NH3), addressing alc. dehydrogenation as the rate-determining step of the overall catalytic process. Most interestingly, a non-trivial pos. effect of the exogeneous H2 pressure was observed on the 1-octanol conversion, also favoring the formation of the secondary amine. To unveil the promoting role of H2 on the reaction rate, a comprehensive kinetic modeling study was carried out. Based on the observed exptl. trends, various kinetic models were proposed relying on an in situ catalytic deactivation-regeneration mechanism of the catalyst surface. Upon statistical discrimination, a robust kinetic model could be obtained, pointing out the adsorbed octylimine intermediate as the most plausible source of deactivation. The kinetic model afford an excellent description of the observed exptl. trends at both low and high 1-octanol conversion and provides a sound mechanistic explanation accounting for the unexpected role of H2 on alc. amination reactions.
Chemical Engineering Journal (Amsterdam, Netherlands) published new progress about Amination. 111-87-5 belongs to class alcohols-buliding-blocks, name is n-Octanol, and the molecular formula is C8H18O, Product Details of C8H18O.
Referemce:
Alcohol – Wikipedia,
Alcohols – Chemistry LibreTexts