Methodological Choices for the Spin-Crossover Energy: Mn(taa) as an Example

Angel Albavera Mata; Daniel Mejia-Rodriguez; Eric Fonseca; Dianteng Cheng; H-P. Cheng; Samuel Trickey; Richard Hennig

Methodological Choices for the Spin-Crossover Energy: Mn(taa) as an Example

ORAL

Abstract

Systematic prediction of the spin-crossover (SCO) energy for both an isolated molecule and its condensed aggregates poses a challenge to current density functional approximations, DFAs [1]. With Mn(taa) as the example, we discuss the effects of DFA choice, dispersion corrections, whether and how to use Hubbard U corrections, and technical and procedural sensitivities and subtleties. We show that, with one exception (r²SCAN [2]), no comparatively simple, non-empirical DFA provides predictive accuracy. Systematic procedures to calculate U fail with popular DFAs. User-driven tuning of U becomes a diagnostic of DFA appropriateness. It confirms the suitability of r²SCAN [2]. In conjunction with structural calculation using r²SCAN-L [3], a rapid procedure for assessing SCO becomes possible.

[1] B. J. Houghton, and R. J. Deeth, Eur. J. Inorg. Chem. 2014, 4573 (2014).
[2] J. W. Furness, A. D. Kaplan, J. Ning, J. P. Perdew, and J. Sun, J. Phys. Chem. Lett. 11, 8208 (2020).
[3] D. Mejia-Rodriguez, and S.B. Trickey, Phys. Rev. B 102, 121109(R) (2020).

March 17, 2021, 11:48 AM – March 17, 2021, 12:00 PM

Presenters

Angel Albavera Mata

Department of Materials Science and Engineering, University of Florida, University of Florida

Authors

Angel Albavera Mata

Department of Materials Science and Engineering, University of Florida, University of Florida
Daniel Mejia-Rodriguez

University of Florida, Department of Physics, University of Florida
Eric Fonseca

Department of Materials Science and Engineering, University of Florida
Dianteng Cheng

Department of Physics, University of Florida
H-P. Cheng

University of Florida, Department of Physics, University of Florida, Center for Molecular Magnetic Quantum Materials, University of Florida
Samuel Trickey

University of Florida, Department of Physics, University of Florida, Center for Molecular Magnetic Quantum Materials, University of Florida
Richard Hennig

University of Florida, Department of Materials Science and Engineering, University of Florida, Materials Science and Engineering, University of Florida