A new orbital-based model for the analysis of experimental molecular charge densities: An application to (Z)-N-methyl-C-phenylnitrone

David E. Hibbs; Siân T. Howard; Jeremy P. Huke; Mark P. Waller

doi:10.1039/b416614k

A new orbital-based model for the analysis of experimental molecular charge densities: An application to (Z)-N-methyl-C-phenylnitrone

David E. Hibbs, Siân T. Howard, Jeremy P. Huke, Mark P. Waller

Research output: Contribution to journal › Article › peer-review

Abstract

An alternative to the usual atom-centred multipole expansion is presented for the analysis of high resolution, low-temperature X-ray scattering data. The molecular electron density is determined in a fixed basis of molecular orbitals with variable orbital occupation numbers, i.e. the same form which is used to represent the density in ab initio electron-correlated calculations. The advantages of such an approach include linear scaling (in the sense that the number of parameters to be determined by fitting varies linearly with system size) and ease of property calculation. The method is applied to experimental high-resolution structure factors for a phenylnitrone, and compared to the results of a multipole model of the same data. Finally, the model is critically compared with several related, published orbital-based models. © The Owner Societies 2005.

Original language	English
Pages (from-to)	1772-1778
Number of pages	6
Journal	Physical Chemistry Chemical Physics
Volume	7
Issue number	8
DOIs	https://doi.org/10.1039/b416614k
Publication status	Published - 21 Apr 2005

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http://dx.doi.org/10.1039/b416614k

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title = "A new orbital-based model for the analysis of experimental molecular charge densities: An application to (Z)-N-methyl-C-phenylnitrone",

abstract = "An alternative to the usual atom-centred multipole expansion is presented for the analysis of high resolution, low-temperature X-ray scattering data. The molecular electron density is determined in a fixed basis of molecular orbitals with variable orbital occupation numbers, i.e. the same form which is used to represent the density in ab initio electron-correlated calculations. The advantages of such an approach include linear scaling (in the sense that the number of parameters to be determined by fitting varies linearly with system size) and ease of property calculation. The method is applied to experimental high-resolution structure factors for a phenylnitrone, and compared to the results of a multipole model of the same data. Finally, the model is critically compared with several related, published orbital-based models. {\textcopyright} The Owner Societies 2005.",

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doi = "10.1039/b416614k",

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T1 - A new orbital-based model for the analysis of experimental molecular charge densities: An application to (Z)-N-methyl-C-phenylnitrone

AU - Hibbs, David E.

AU - Howard, Siân T.

AU - Huke, Jeremy P.

AU - Waller, Mark P.

PY - 2005/4/21

Y1 - 2005/4/21

N2 - An alternative to the usual atom-centred multipole expansion is presented for the analysis of high resolution, low-temperature X-ray scattering data. The molecular electron density is determined in a fixed basis of molecular orbitals with variable orbital occupation numbers, i.e. the same form which is used to represent the density in ab initio electron-correlated calculations. The advantages of such an approach include linear scaling (in the sense that the number of parameters to be determined by fitting varies linearly with system size) and ease of property calculation. The method is applied to experimental high-resolution structure factors for a phenylnitrone, and compared to the results of a multipole model of the same data. Finally, the model is critically compared with several related, published orbital-based models. © The Owner Societies 2005.

AB - An alternative to the usual atom-centred multipole expansion is presented for the analysis of high resolution, low-temperature X-ray scattering data. The molecular electron density is determined in a fixed basis of molecular orbitals with variable orbital occupation numbers, i.e. the same form which is used to represent the density in ab initio electron-correlated calculations. The advantages of such an approach include linear scaling (in the sense that the number of parameters to be determined by fitting varies linearly with system size) and ease of property calculation. The method is applied to experimental high-resolution structure factors for a phenylnitrone, and compared to the results of a multipole model of the same data. Finally, the model is critically compared with several related, published orbital-based models. © The Owner Societies 2005.

U2 - 10.1039/b416614k

DO - 10.1039/b416614k

M3 - Article

SN - 1463-9076

VL - 7

SP - 1772

EP - 1778

JO - Physical Chemistry Chemical Physics

JF - Physical Chemistry Chemical Physics

IS - 8

ER -

A new orbital-based model for the analysis of experimental molecular charge densities: An application to (Z)-N-methyl-C-phenylnitrone

Abstract

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