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Paper detail

Many-Body Dispersion Interactions in Molecular Crystal Polymorphism

Polymorphs in molecular crystals are often very close in energy, yet they may possess markedly different physical and chemical properties. The understanding and prediction of polymorphism is of paramount importance for a variety of applications, including pharmaceuticals, non-linear optics, and hydrogen storage. Here, we show that the non-additive many-body dispersion (MBD) energy beyond the standard pairwise approximation is crucial for the correct qualitative and quantitative description of polymorphism in molecular crystals. This is rationalized by the sensitive dependence of the MBD energy on the polymorph geometry and the ensuing dynamic electric fields inside molecular crystals. We use the glycine crystal as a fundamental and stringent benchmark case to demonstrate the accuracy of the DFT+MBD method.

preprint2012arXivOpen access
Noa MaromRobert A. DiStasio Jr.Viktor AtallaSergey LevchenkoJames R. ChelikowskyLeslie LeiserowitzAlexandre Tkatchenko
cond-mat.mtrl-sci
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Noa MaromRobert A. DiStasio Jr.Viktor AtallaSergey LevchenkoJames R. ChelikowskyLeslie LeiserowitzAlexandre Tkatchenko

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