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2006
Conference Paper
Titel
Ab initio study of surface stresses of charged Au films
Abstract
It has been observed in experiments that charging of nanometer-sized porous material can lead to expansion or contraction of this material. This effect can be explained by a change in surface stress as a function of surface electron charge density. Here, we employ ab initio density functional calculations using a mixed-basis pseudopotential approach to study the change in surface stresses, f, as a function of surface charge density, q for Au thin films with (111) and (100) surfaces. The derivative of the surface stress with respect to the charge, f/q, at equilibrium is related to and can be evaluated from /e of an uncharged slab, where is the chemical potential of the electrons in the slab and e the tangential strain. The responses of the (111) and (100) surfaces to charging are evaluated in this way as -1.86 V and -0.90 V, respectively. The calculated values compare well to experimental observations (-0.9 V).