1999
DOI: 10.1088/0953-8984/11/13/006
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Deriving accurate work functions from thin-slab calculations

Abstract: Quantum-size effects have been shown to influence significantly the determination of work functions from thin-slab calculations. We show here that a technique based on macroscopic averages can be used to reduce such effects and determine more precisely the work functions of metals from ab initio thin-film calculations. The technique combines the mean electrostatic potential step across the slab surface with the Fermi energy of a bulk crystal. The method is applied to Al(100) slabs containing 1-14 atomic layers. Show more

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Cited by 177 publications
(165 citation statements)
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“…In Fig. 2, we show the macroscopically averaged 32,33 Fig. 1), which occur to minimize the interatomic forces for a given Z in LaSrAlO 4 .…”
Section: Energeticsmentioning
confidence: 99%
“…In Fig. 2, we show the macroscopically averaged 32,33 Fig. 1), which occur to minimize the interatomic forces for a given Z in LaSrAlO 4 .…”
Section: Energeticsmentioning
confidence: 99%
“…The work function is then the negative of the Fermi energy. 63,64 The molecular dynamics simulations were performed using a time step of 0.5 fs at a mean temperature of 300 K. No constraints on the positions of the metal atoms or the geometry of the water molecules were applied. Two different initial configurations corresponding the up and down structures were considered ͑for a description of these structures see Sec.…”
Section: Computational Detailsmentioning
confidence: 99%
“…These values compare well with other calculations 22,24 and the expected larger work function for the ͑111͒ surface is reproduced. The absolute values for the bare surface should be taken with some caution as no extensive testing of the dependence of the work function values on our model has been done ͑see the recent work of Fall et al 25 for a discussion on the determination of work functions from calculations͒.…”
Section: B Calculations For the Adsorption Of Ammonia On The "111… Amentioning
confidence: 99%