Litcius/Paper detail

Accurate, Affordable and Unsupervised: Analytical F12 Gradients Driven by Generalized Internal Coordinates

Luigi Crisci, Federico Lazzari, Vincenzo Barone

2025The Journal of Physical Chemistry Letters16 citationsDOI

Abstract

Accurate yet affordable quantum-chemical predictions are essential in several fields of molecular sciences, such as high-resolution rotational and vibrational spectroscopy. Despite major methodological and technological advances, benchmark-level methods remain prohibitive for molecules of realistic size. We present a modular implementation of the Pisa Composite Schemes (PCS), where analytical gradients ensure robust optimizations and efficient frequency calculations. PCS variants are combined hierarchically to reduce the iterations required in geometry optimizations with the most accurate and costly model, while multilayer ONIOM descriptions extend applicability by treating chemically central regions at high accuracy and peripheral fragments with lower-cost DFT variants. This strategy achieves near-spectroscopic accuracy for medium-sized molecules, including challenging cases such as CN-substituted PAHs and transition states. Freely available and user-friendly, the platform paves the way for routine, spectroscopically accurate simulations of complex systems with quantified uncertainty.

Topics & Concepts

ONIOMModular designComputer scienceAlgorithmDimension (graph theory)Computational scienceField (mathematics)PhysicsStatistical physicsMathematical optimizationComputational physicsCylindrical coordinate systemCartesian coordinate systemComplex systemIdeal (ethics)Measure (data warehouse)Coordinate systemTopology (electrical circuits)MinificationWork (physics)Efficient algorithmBiological systemGas Dynamics and Kinetic TheoryPhase Equilibria and ThermodynamicsAdvanced Chemical Physics Studies