Yan Zhang 
For correspondence:- Email: cpzyyan@126.com
Received: 20 March 2014 Accepted: 1 May 2014 Published: 26 June 2014
Citation: Zhang Y. Prediction and Theoretical Investigation of the Morphology of Erythromycin Dihydrate Crystals. Trop J Pharm Res 2014; 13(6):829-834 doi: 10.4314/tjpr.v13i6.1
© 2014 The authors.
This is an Open Access article that uses a funding model which does not charge readers or their institutions for access and distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0) and the Budapest Open Access Initiative (http://www.budapestopenaccessinitiative.org/read), which permit unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited..
Purpose: To predict and theoretically investigate the morphology of erythromycin dihydrate crystals.
Methods: The crystal morphology of erythromycin dihydrate was predicted using the Bravais-Friedel-Donnay-Harker (BFDH) and attachment energy (AE) models of molecular simulation software, Cerius2, in vacuo.
Results: The morphology predicted by the two models is approximately consistent. The morphology predicted by AE model was in good agreement with the morphology of crystals grown from solution. The main crystal faces {002}, {101}, {011} and {012} were observed in the morphology predicted by AE model. By cleaving revealable crystal faces in the morphology predicted by AE model, surface chemistry visualization and theoretical analysis based on interaction of H-band net formed in intra-molecules or inter-molecules for important morphological forms were performed.
Conclusion: The results show that H-band interaction plays a critical role in the plate-like morphology of erythromycin dihydrate, which is in accordance with the theory of Periodic Bond Chain (PBC).
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