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Exploring Chemical Space with Alchemical Derivatives: Alchemical Transformations of H through Ar and its Ions as a Proof of Concept.

Abstract

Alchemical derivatives have been used in recent years to obtain essentially qualitative information about transformations in which the number of electrons is unchanged. Within the context of Conceptual DFT, we present a systematic approach for combining changes in both the number of electrons and the nuclear charge so that for example one can navigate from one neutral atom to another. A general formalism is presented for transformations involving changes both in Z or N , where Parr’s parabolic approach for the N dependence is considered as a particular case as is the ensemble description in the 0K limit. The B3LYP functional in its CAMB3LYP version combined with the aug-cc-pCCQZ basis, has been chosen to perform Coupled Perturbed Kohn Sham calculations of the alchemical derivatives. The monotonic behaviour of the alchemical potential is scrutinised. The order of magnitude analysis of the derivatives preludes convergence at third order. These results are injected in two strategies for obtaining transmutation energies from neutral atoms to a neighbouring neutral atom: one road moving along the Z=N diagonal, the other one walking along a pure alchemical road after ionisation or electron attachment . Roads involving the anion of the reference atom are much less successful than those involving its cation. The transmutation energy for the cationic pathway displays chemical accuracy when the procedure is carried at third order in ΔZ. The difficulties inherent to an accurate description of the anion and its response functions are responsible for the shortcomings along the anionic paths. As a direct application Ionization Energies and Electron Affinities are evaluated showing an almost perfect agreement with the direct evaluation and a difference with experimental values less than 0.5 eV for the IE. For the first EA reasonable agreement is obtained with direct and experimental values whereas the second EAs for atoms with stable mono-anions show a remarkable agreement with literature data .Besides a proof of concept that with the information content of an atom one can get accurate energetics of its neighbours, the results indicate that alchemical derivatives are capable to yield quantitative information when navigating through Chemical Compound Space.

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Publication details

The article was received on 12 Jul 2019, accepted on 08 Oct 2019 and first published on 09 Oct 2019


Article type: Paper
DOI: 10.1039/C9CP03935J
Phys. Chem. Chem. Phys., 2019, Accepted Manuscript

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    Exploring Chemical Space with Alchemical Derivatives: Alchemical Transformations of H through Ar and its Ions as a Proof of Concept.

    R. Balawender, M. Lesiuk, F. De Proft, C. Van Alsenoy and P. Geerlings, Phys. Chem. Chem. Phys., 2019, Accepted Manuscript , DOI: 10.1039/C9CP03935J

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