A Combined Modelling and Experimental Study of the Surface Energetics of a-Lactose Monohydrate
Publication date
2009Keyword
Lactose MonohydrateIGC
Molecular Modelling
Surface Chemistry
Hydrate
Chromatography
Materials Science
Physicochemical Properties
Peer-Reviewed
YesOpen Access status
closedAccess
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The surface energy of a-lactose monohydrate measured by inverse gas chromatography (IGC) is reported along with a dynamic molecular modelling study of the interaction of the various molecular probes with different surfaces of a-lactose monohydrate. The IGC results show that a-lactose monohydrate is acidic in nature. Using quantitative calculations of the energy of adsorption, the acidic nature of the surface is confirmed and the calculated values agree closely with the experimentally measured values. Along with the acidic nature, dynamic molecular modelling also reveals that the presence of a channel and water molecules on a surface affects the surface energetics of that face. The presence of water on the surface can decrease or increase the surface energy by either blocking or attracting a probe molecule, respectively. This property of water depends on its position and association with other functional groups present on the surface. The effect of a channel or cavity on the surface energy is shown to depend on its size, which determines whether the functional groups in the channel are assessable by probe molecules or not. Overall molecular modelling explains, at the molecular level, the effect of different factors affecting the surface energy of individual faces of the crystal.Version
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Saxena, A., Kendrick, J., Grimsey, I.M., Roberts, R. and York, P. (2009). A Combined Modelling and Experimental Study of the Surface Energetics of a-Lactose Monohydrate. Journal of Pharmaceutical Sciences. Vol. 99, No. 2, pp. 741-752.Link to Version of Record
https://doi.org/10.1002/jps.21864Type
Articleae974a485f413a2113503eed53cd6c53
https://doi.org/10.1002/jps.21864