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Atom numbering, writing reaction mechanisms

We have been able to identify two types of structural features of platinum surfaces that influence the catalytic surface reactions (a) atomic steps and kinks, i.e., sites of low metal coordination number, and (b) carbonaceous overlayers, ordered or disordered. The surface reaction may be sensitive to both or just one of these structural features or it may be totally insensitive to the surface structure, The dehydrogenation of cyclohexane to cyclohexene appears to be a structure-insensitive reaction. It takes place even on the Pt(l 11) crystal face, which has a very low density of steps, and proceeds even in the presence of a disordered overlayer. The dehydrogenation of cyclohexene to benzene is very structure sensitive. It requires the presence of atomic steps [i.e., does not occur on the Pt(l 11) crystal face] and an ordered overlayer (it is poisoned by disorder). Others have found the dehydrogenation of cyclohexane to benzene to be structure insensitive (42, 43) on dispersed-metal catalysts. On our catalyst, surfaces that contain steps, this is also true, but on the Pt(lll) catalyst surface, benzene formation is much slower. Dispersed particles of any size will always contain many steplike atoms of low coordination, and therefore the reaction will display structure insensitivity. Based on our findings, we may write a mechanism for these reactions by identifying the sequence of reaction steps ... [Pg.56]

The ability to count correctly the number of electrons around any given atom is central to being able to write a plausible reaction mechanism in organic chemistry. [Pg.21]

The atomic processes that are occurring (under conditions of equilibrium or non equilibrium) may be described by statistical mechanics. Since we are assuming gaseous- or liquid-phase reactions, collision theory applies. In other words, the molecules must collide for a reaction to occur. Hence, the rate of a reaction is proportional to the number of collisions per second. This number, in turn, is proportional to the concentrations of the species combining. Normally, chemical equations, like the one given above, are stoichiometric statements. The coefficients in the equation give the number of moles of reactants and products. However, if (and only if) the chemical equation is also valid in terms of what the molecules are doing, the reaction is said to be an elementary reaction. In this case we can write the rate laws for the forward and reverse reactions as Vf = kf[A]"[B]6 and vr = kr[C]c, respectively, where kj and kr are rate constants and the exponents are equal to the coefficients in the balanced chemical equation. The net reaction rate, r, for an elementary reaction represented by Eq. 2.32 is thus... [Pg.87]

More generally, using these structures, it proved possible to write mechanisms for a large number of the photochemical reactions known at the time. The structures are written in terms of hybrid and atomic orbitals as a basis, but the verbal terminology was that of the states and their main configurations. [Pg.3]

See other pages where Atom numbering, writing reaction mechanisms is mentioned: [Pg.86]    [Pg.59]    [Pg.1226]    [Pg.218]    [Pg.1276]    [Pg.715]    [Pg.104]    [Pg.104]    [Pg.111]    [Pg.89]    [Pg.89]    [Pg.101]    [Pg.109]    [Pg.297]    [Pg.96]    [Pg.384]    [Pg.181]   
See also in sourсe #XX -- [ Pg.85 , Pg.88 , Pg.97 , Pg.144 , Pg.160 , Pg.201 , Pg.242 , Pg.440 ]



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