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An Experimental Charge Density Study of the Effect of the Noncentric Crystal Field on the Molecular Properties of Organic NLO Materials

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dc.contributor.author Gopalan, R Srinivasa
dc.contributor.author Kulkarni, G U
dc.contributor.author Rao, C N R
dc.date.accessioned 2012-03-19T06:20:45Z
dc.date.available 2012-03-19T06:20:45Z
dc.date.issued 2000-11-03
dc.identifier 1439-4235 en_US
dc.identifier.citation Chemphyschem 1(3), 127-135 (2000) en_US
dc.identifier.uri https://libjncir.jncasr.ac.in/xmlui/10572/660
dc.description Restricted Access en_US
dc.description.abstract The structure, packing, and charge distribution in molecules of nonlinear optical materials have been analysed with reference to their counterparts in centrosymmetric structures based on low temperature X-ray measurements. The systems studied are the centric and noncentric polymorphs of 5-nitrouracil as well as the diamino, dithio, and thioamino derivatives of 1,1-ethylenedicarbonitrile; the latter possesses a noncentric structure. The molecular structure of 5-nitrouracil is invariant between the two forms, while the crystal packing is considerably different, leading to dimeric N-H . . . O rings in the centric polymorph and linear chains in noncentric one. There is an additional C-H . . . O contort in the centric form with a significant overlap of the electrostatic potentials between the alkenyl hydrogen atom and an oxygen atom of the nitro group. The dipole moment of 5-nitrouracil in the noncentric form is much higher (mu = 9 D) than in the centric form (approximate to 6 D). Among the 1,1-ethylenedicarbonitriles, there is an increased charge separation in the noncentric thioamino derivative, feeding to an enhanced dipole of 15 D compared to the centric diamino (5 D) and dithio (6 D) derivatives. The effect of the crystal field is borne out by semiempirical AM1 calculations on the Two systems. Dipole moments calculated for the molecules in the frozen geometries match closely with those obtained for centric crystals from the experimental charge densities. The calculated values of the dipole moment in the frozen or optimized geometries in the noncentric structures are, however, considerably lower than the observed value. Furthermore, the conformation of the S-CH3 group in the noncentric crystal is anti with respect to the central C=C bond while the syn conformation is predicted for the free molecule in the optimized geometry. en_US
dc.description.uri http://dx.doi.org/10.1002/1439-7641(20001103)1:3<127::AID-CPHC127>3.0.CO;2-1 en_US
dc.language.iso en en_US
dc.publisher WILEY-VCH Verlag GmbH en_US
dc.rights © 2000 WILEY-VCH Verlag GmbH & Co en_US
dc.subject charge density en_US
dc.subject dipole moment en_US
dc.subject materials science en_US
dc.subject nonlinear optics en_US
dc.subject semiempirical calculations en_US
dc.subject Nonlinear-Optical Material en_US
dc.subject Electron-Density en_US
dc.subject X-Ray en_US
dc.subject Diffraction Data en_US
dc.subject Solid-State en_US
dc.subject Compound en_US
dc.subject Refinements en_US
dc.subject Phosphate en_US
dc.subject Ktiopo4 en_US
dc.subject Bond en_US
dc.title An Experimental Charge Density Study of the Effect of the Noncentric Crystal Field on the Molecular Properties of Organic NLO Materials en_US
dc.type Article en_US


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