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  English.dicp.cas.cn    Posted:2016-11-15
The dynamics of molecular interactions and chemical reactions at metal surfaces: Testing the foundations of theory

Alec M. Wodtke

Georg-August University of Gottingen

Max Planck Institute for Biophysical Chemistry

Time: 10:00am, Nov. 15, 2016 (Tuesday)

Venue: 3nd floor, No. 36 Building

Abstract

In 1929, Nobel Laureate Paul Dirac made comments to the effect that

Chemistry had been solved. With the advent of quantum mechanics “The underlying physical laws necessary for the mathematical theory of… …the whole of chemistry are… …completely known…. However, on a practical level computational chemistry is still in an early stage of development. Dirac went on: “the difficulty is only that the exact application of these laws leads to equations much too complicated to be soluble.” Despite electrifying advances in computational power since that time, Dirac is still right. The theory of chemistry requires approximations before theoretical descriptions and predictions of chemical reactions can be made.

The advent of the Born-Oppenheimer Approximation led to the development of the standard model of chemical reactivity where the electronically adiabatic potential energy surface for nuclear motion is derived and quantum motion of the nuclei on that surface can be calculated. For simple gas phase reactions, this approach has become an extraordinarily useful and reliable tool. For surface chemistry, additional approximations are commonly made: 1) classical mechanics for describing nuclear motion, 2) density functional theory (usually at the generalized gradient level) for calculating electronic states, 3) reduced dimensionality approximations and as before 4) the Born-Oppenheimer approximation to separate electronic and nuclear degrees of freedom. I call this collection of approximations the provisional model for surface chemistry as we in the field are still testing and improving it.

In this talk, I will describe how a fruitful interplay between experiment and theory can lead to accurate atomic-scale simulations of simple reactions at metal surfaces. I will describe the very significant challenges surface chemistry presents including the problems of high dimensionality and the common failure of the Born Oppenheimer approximation. As a concrete example, I will present results of a full dimensional theoretical approach to hydrogen atom adsorption at a metal surface that includes the effects of Born-Oppenheimer failure. This leads to an atomic scale view of H-atom adsorption at a noble metal.

Introduction

Alec Wodtke is a director in the Max Planck Institute for biophysical chemistry and a professor in the Georg-August University of G?ttingen, Germany. He is a fellow of the American Physical Society and the American Association for the Advancement of Science. He earned his bachelor’s degree from the University of Utah in 1981, and the PhD from UC Berkeley in 1986. After working in the Max Planck Institute for fluid dynamics as a postdoc, he became a professor from 1988 in UC Santa Barbara. In 2010, he got the Alexander von Humboldt Professorship, and moved to G?ttingen, Germany. Now his interest is focusing on the dynamics at surfaces.

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