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Metal Oxide Nanoparticles: Size-Dependence of Quantum-Mechanical Properties

[ Vol. 1 , Issue. 1 ]


Agnieszka Gajewicz, Tomasz Puzyn, Bakhtiyor Rasulev, Danuta Leszczynska and Jerzy Leszczynski   Pages 53 - 58 ( 6 )


Most of physicochemical properties of nanoparticles alter with their varying size. Therefore, understanding the size-property relationships is essential to design nanoparticles characterized by desired features. We have studied those relationships based on a series of 6 representative metal oxides molecular clusters with diameters ranging from 5 Å to 50 Å. We investigated effects of the variation in the clusters size on values of the selected molecular (quantum-mechanical) parameters, that could be consider as potential nanodescriptors for QSAR/QSPR studies.

We noticed that the studied parameters change according to two main schemes: (i) increase/decrease non-linearly till it reaches a given value (saturation point) and (ii) increase/decrease linearly with size of a nanoparticle. Our results show that the saturation effect for some molecular properties of nanometer-sized metal oxides can be reached even in clusters containing dozens of atoms. Calculations based on small clusters representing smaller fragments of a nanoparticle at semiempirical PM6 level of the quantum-mechanical theory can be efficiently used for investigation and prediction of the properties of nanometer-scale metal oxides; they are not computationally demanding. We believe that the molecular properties calculated this way would be utilized in future as structural descriptors for quantitative modeling of the relationships between structure and activity of nanomaterials (Nano-QSAR).


Band gap, nanoparticle, metal oxide, descriptors, size, Nano-QSAR, macro-quantum, nanoparticles, electrophilicity, ZnO nanoparticles, Density Functional Theory, non-linear properties, titanium, parameterization


Interdisciplinary Nanotoxicity Center, Department of Chemistry and Biochemistry, Jackson State University1325 Lynch St, Jackson, MS 39217-0510 USA.

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