Multiscale Modeling of Molecular Structure and Optical Properties of Complex Supramolecular Aggregates

01 June 2020, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

Supramolecular aggregates of synthetic dye molecules offer great perspectives to prepare biomimetic functional materials for light-harvesting and energy transport. The design is complicated by the fact that structure-property relationships are hard to establish, because the molecular packing results from a delicate balance of interactions and the excitonic properties that dictate the optics and excited state dynamics, in turn sensitively depend on this packing. Here we show how an iterative multiscale approach combining molecular dynamics and quantum mechanical exciton modeling can be used to obtain accurate insight into the packing of thousands of cyanine dye molecules in a complex double-walled tubular aggregate in close interaction with its solvent environment. Our approach allows us not only to answer open questions on the structure of these prototypical aggregates, but also about their molecular-scale structural and energetic heterogeneity, and the microscopic origin of their photophysical properties. This opens the route to accurate predictions of energy transport and other functional properties.

Keywords

molecular aggregates
C8S3
light-harvesting
spectroscopy
structure-property relationships

Supplementary materials

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SI C8S3 multiscale
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