Slope of the Delocalization Function Is Proportional to Analytical Hardness

Bin Wang; Paul Geerlings; Farnaz Heidar-Zadeh; Paul W. Ayers; Frank De Proft

doi:10.1021/acs.jpclett.4c02263

Slope of the Delocalization Function Is Proportional to Analytical Hardness

Bin Wang, Paul Geerlings, Farnaz Heidar-Zadeh, Paul W. Ayers, Frank De Proft

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Abstract

Conceptual Density Functional Theory (CDFT) has been extended beyond its traditional role in elucidating chemical reactivity to the development of density functional theory methods, e.g., the investigation of the delocalization error. This delocalization error causes the dependence of the energy on the number of electrons (N) to deviate from its exact piecewise linear behavior, an error which is the basis of many well-known limitations of commonly used density-functional approximations (DFAs). Following our previous work on the analytical hardness η^± for pure functionals, we extend its application to hybrid and range-separated functionals. A comparison is made between the analytical hardness and the slope of the delocalization function introduced by Hait and Head-Gordon. Our results show that there is a linear relationship between its slope and the analytical hardness. An approximate scheme is presented to construct the energy vs N curve without fractional occupation number calculations. The extension to densities is discussed.

Original language	English
Pages (from-to)	11259-11267
Number of pages	9
Journal	Journal of Physical Chemistry Letters
Volume	15
Issue number	45
DOIs	https://doi.org/10.1021/acs.jpclett.4c02263
Publication status	Published - 14 Nov 2024

Bibliographical note

Funding Information:
FDP acknowledges support of the Vrije Universiteit Brussel through a Strategic Research Program awarded to his research group. FDP and BW further acknowledge the Research Foundation Flanders (FWO) for financial support, among others through SBO research grant S003818N. PWA and FHZ thank Natural Sciences and Engineering Research Council (NSERC) of Canada and the Digital Research Alliance of Canada for support; PWA additionally thanks the Canada Research Chairs. BW acknowledges the support from Chinese Scholarship Council (No. 202106720017). The ALGC authors would also like to thank Weitao Yang from Duke University, USA for the very instructive discussion during his recent visit at the VUB.

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© 2024 American Chemical Society.

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title = "Slope of the Delocalization Function Is Proportional to Analytical Hardness",

abstract = "Conceptual Density Functional Theory (CDFT) has been extended beyond its traditional role in elucidating chemical reactivity to the development of density functional theory methods, e.g., the investigation of the delocalization error. This delocalization error causes the dependence of the energy on the number of electrons (N) to deviate from its exact piecewise linear behavior, an error which is the basis of many well-known limitations of commonly used density-functional approximations (DFAs). Following our previous work on the analytical hardness η± for pure functionals, we extend its application to hybrid and range-separated functionals. A comparison is made between the analytical hardness and the slope of the delocalization function introduced by Hait and Head-Gordon. Our results show that there is a linear relationship between its slope and the analytical hardness. An approximate scheme is presented to construct the energy vs N curve without fractional occupation number calculations. The extension to densities is discussed.",

author = "Bin Wang and Paul Geerlings and Farnaz Heidar-Zadeh and Ayers, {Paul W.} and {De Proft}, Frank",

note = "Funding Information: FDP acknowledges support of the Vrije Universiteit Brussel through a Strategic Research Program awarded to his research group. FDP and BW further acknowledge the Research Foundation Flanders (FWO) for financial support, among others through SBO research grant S003818N. PWA and FHZ thank Natural Sciences and Engineering Research Council (NSERC) of Canada and the Digital Research Alliance of Canada for support; PWA additionally thanks the Canada Research Chairs. BW acknowledges the support from Chinese Scholarship Council (No. 202106720017). The ALGC authors would also like to thank Weitao Yang from Duke University, USA for the very instructive discussion during his recent visit at the VUB. Publisher Copyright: {\textcopyright} 2024 American Chemical Society.",

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AU - De Proft, Frank

N1 - Funding Information: FDP acknowledges support of the Vrije Universiteit Brussel through a Strategic Research Program awarded to his research group. FDP and BW further acknowledge the Research Foundation Flanders (FWO) for financial support, among others through SBO research grant S003818N. PWA and FHZ thank Natural Sciences and Engineering Research Council (NSERC) of Canada and the Digital Research Alliance of Canada for support; PWA additionally thanks the Canada Research Chairs. BW acknowledges the support from Chinese Scholarship Council (No. 202106720017). The ALGC authors would also like to thank Weitao Yang from Duke University, USA for the very instructive discussion during his recent visit at the VUB. Publisher Copyright: © 2024 American Chemical Society.

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N2 - Conceptual Density Functional Theory (CDFT) has been extended beyond its traditional role in elucidating chemical reactivity to the development of density functional theory methods, e.g., the investigation of the delocalization error. This delocalization error causes the dependence of the energy on the number of electrons (N) to deviate from its exact piecewise linear behavior, an error which is the basis of many well-known limitations of commonly used density-functional approximations (DFAs). Following our previous work on the analytical hardness η± for pure functionals, we extend its application to hybrid and range-separated functionals. A comparison is made between the analytical hardness and the slope of the delocalization function introduced by Hait and Head-Gordon. Our results show that there is a linear relationship between its slope and the analytical hardness. An approximate scheme is presented to construct the energy vs N curve without fractional occupation number calculations. The extension to densities is discussed.

AB - Conceptual Density Functional Theory (CDFT) has been extended beyond its traditional role in elucidating chemical reactivity to the development of density functional theory methods, e.g., the investigation of the delocalization error. This delocalization error causes the dependence of the energy on the number of electrons (N) to deviate from its exact piecewise linear behavior, an error which is the basis of many well-known limitations of commonly used density-functional approximations (DFAs). Following our previous work on the analytical hardness η± for pure functionals, we extend its application to hybrid and range-separated functionals. A comparison is made between the analytical hardness and the slope of the delocalization function introduced by Hait and Head-Gordon. Our results show that there is a linear relationship between its slope and the analytical hardness. An approximate scheme is presented to construct the energy vs N curve without fractional occupation number calculations. The extension to densities is discussed.

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Slope of the Delocalization Function Is Proportional to Analytical Hardness

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Slope of the Delocalization Function Is Proportional to Analytical Hardness

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SRP73: SRP-Onderzoekszwaartepunt: Understanding, predicting, and tailoring molecular and material properties and reactivity through combined conceptual and computational quantum chemical approaches

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