Litcius/Paper detail

Real-time time-dependent density functional theory implementation of electronic circular dichroism applied to nanoscale metal–organic clusters

Esko Makkonen, Tuomas P. Rossi, Ask Hjorth Larsen, Olga Lopez-Acevedo, Patrick Rinke, Mikael Kuisma, Xi Chen

2021The Journal of Chemical Physics28 citationsDOIOpen Access PDF

Abstract

Electronic circular dichroism (ECD) is a powerful spectroscopy method for investigating chiral properties at the molecular level. ECD calculations with the commonly used linear-response time-dependent density functional theory (LR-TDDFT) framework can be prohibitively costly for large systems. To alleviate this problem, we present here an ECD implementation within the projector augmented-wave method in a real-time-propagation TDDFT framework in the open-source GPAW code. Our implementation supports both local atomic basis sets and real-space finite-difference representations of wave functions. We benchmark our implementation against an existing LR-TDDFT implementation in GPAW for small chiral molecules. We then demonstrate the efficiency of our local atomic basis set implementation for a large hybrid nanocluster and discuss the chiroptical properties of the cluster.

Topics & Concepts

Time-dependent density functional theoryDensity functional theoryBasis setCircular dichroismBasis (linear algebra)ProjectorBenchmark (surveying)Set (abstract data type)SpectroscopyMaterials scienceNanoscopic scaleElectronic structurePhysicsMagnetic circular dichroismHybrid functionalComputational chemistryVibrational circular dichroismLocal-density approximationMolecular physicsMinificationNanotechnologyComponent (thermodynamics)Absorption spectroscopyDichroismComputer scienceMoleculeChemical physicsComputational physicsMolecular spectroscopy and chiralitySynthesis and Properties of Aromatic CompoundsMagnetism in coordination complexes