Bonding work function

UPS UV photoelectron spectroscopy Absorption of UV light by an atom, after which a valence electron Is ejected. Chemical bonding, work function... 

Increasing catalyst surface work function causes an increase in the heat of adsorption (thus chemisorptive bond strength) of electropositive (electron donor) adsorbates and a decrease in the heat of adsorption (thus chemisorptive bond strength) of electronegative (electron acceptor) adsorbates. 

Increasing catalyst potential and work function leads to a pronounced increase in total oxygen coverage (which approaches unity even at elevated temperatures) and causes the appearance of new chemisorption states. At least two such states are created on Pt/YSZ (Fig. 4.43) A strongly bonded one which, as discussed in Chapter 5, acts as a sacrificial promoter during catalytic oxidations, and a weakly bonded one which is highly reactive and causes the observed dramatic increase in catalytic rate. 

One of the most striking results is that of C2H4 oxidation on Pt5 where (xads,o ctact = -1, i.e. the decreases in reaction activation energy and in the chemisorptive bond strength of oxygen induced by increasing work function ethylene epoxidation and deep oxidation on Ag.5... 

Consequently one of the key experimental observations of electrochemical promotion obtains a firm theoretical quantum mechanical confirmation The binding energy of electron acceptors (such as O) decreases (increases) with increasing (decreasing) work function in a linear fashion and this is primarily due to repulsive (attractive) dipole-dipole interactions between O and coadsorbed negative (positive) ionically bonded species. These interactions are primarily through the vacuum and to a lesser extent through the metal . 

FI. Increasing work function 0 (e.g. via addition of electronegative promoters) strengthens the chemisorptive bond of electron donor adsorbates (D) and weakens the chemisorptive bond of electron acceptor adsorbates (A). 

In order to attempt a more quantitative description one may start from the early theoretical considerations of Boudart9 who was first to tackle the problem of predicting the change in heats of adsorption with changing work function O. According to his early semiempirical electrostatic model when the work function of a surface changes by AO then the heat of adsorption, -AHad, of covalently bonded adsorbed species should change by ... 

Similarly to the case of C2H4 oxidation on Pt (section 8.1.1.1) one can attribute this decrease to the increased entropy of chemisorbed atomic oxygen due to the weakening of the Ag=0 bond with increasing work function O. 

The enhancement in the catalytic activity is due to the electrochemical supply of H+to the catalyst which decreases the catalyst work function and thus strengthens the chemisorptive bond of electron acceptor N while at the same time weakening the bonds of electron donor H and NH3. 

This destabilization of surface Rh oxide formation with increasing catalyst potential or work function has been shown to be due to strong lateral repulsive interactions of the backpspillover O2 species and normally chemisorbed oxygen33 which causes a pronounced, up to leV, decrease in the chemisorptive bond strength of normally chemisorbed o.35,36... 

H H non-bonded interactions are of great importance in organic compoimds, and thus it was of interest to attempt to investigate H H non-bonded potential functions via the determination of a steric isotope effect in the configurational inversion of an unsubstituted biaryl. In view of the extensive work of Harris and her co-workers in the 1,1 -binaphthyl series (see, for example, Badar et al., 1965 Cooke and Harris, 1963), and since the parent compound is one of the simplest hydrocarbons that may be obtained in enantiomeric forms, the determination of the isotope effect in the inversion of l,l -binaphthyl-2,2 -d2 (9) was... 

What happens with the outer orbitals of an atom when it approaches a metal surface Discuss the role of the atom s ionization potential and electron affinity in relation to the work function of the metal for the strength of the eventual chemisorption bond. 

The bonding Is accompanied by a charge donation to the metal which produces a decrease of the work-function and affects also the vibrational properties of the molecule as we discuss below. The charge donation is 0.1 and 0.15 electrons for H2O and NHj respectively. 

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