Learn how to select appropriate computational models to deliver impact in surface chemistry research – join us 12 November

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The role of materials science in many of today’s technologies hinges on how one material affects another. As a result, a vast body of research is carried out worldwide into surfaces and interfaces. Atomic-scale models of surfaces advance our conceptual understanding, and also deliver quantitative predictions of properties for the design of new materials within devices, formulations and products. With faster hardware and user-friendlier software, these atomic-scale calculations are finding their place in mainstream R&D – both industrial and academic.

In this hour-long, interactive webinar you will learn about a variety of atomistic models of surfaces and gain perspective on the underlying rationale, benefits and limitations of each. Molecular mechanics, quantum mechanics and microkinetics will feature as the main computational engines for interfaces between gases, liquids, solutes, films, electrodes, catalysts and more. This webinar will be suitable for chemistry professionals looking to integrate modelling into their research in a way that delivers tangible scientific results.

Please note: Closed captions are available on this webinar.

Speaker

Portrait headshot of Simon Elliott

Simon Elliott, Director of atomic level process simulation

Simon Elliott is a pioneer in applying atomic-scale models to the surface chemistry of materials deposition and etch. Before joining Schrödinger, he studied chemistry in Ireland and Germany and led a research group at Tyndall National Institute in Ireland. He was the 2023 recipient of the ALD Innovator Award.

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