Computational compound screening of biomolecules and soft materials by molecular simulations

Abstract: Decades of hardware, methodological, and algorithmic development have propelled molecular dynamics (MD) simulations to the forefront of materials-modeling techniques, bridging the gap between electronic-structure theory and continuum methods. The physics-based approach makes MD appropriate to study emergent phenomena, but simultaneously incurs significant computational investment. This topical review explores the use of MD outside the scope of individual systems, but rather considering many compounds. Such an … Show more

“…This introduces a degeneracy in the CG representation, which translates into a reduction of the size of the chemical (compound) space. [284] Accordingly, this reduction of the size of the chemical space represents also a further speed-up which can help for screening studies. [284] Hence, we expect hybrid Martini/machine-learning schemes to be highly promising in order to efficiently explore the chemical space for different applications.…”

The Martini Model in Materials Science

“…This introduces a degeneracy in the CG representation, which translates into a reduction of the size of the chemical (compound) space. [284] Accordingly, this reduction of the size of the chemical space represents also a further speed-up which can help for screening studies. [284] Hence, we expect hybrid Martini/machine-learning schemes to be highly promising in order to efficiently explore the chemical space for different applications.…”

The Martini Model in Materials Science