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VOL. 6, ISSUE 2 (2021)
Comparing the energy levels of myricetin nanocomposite model structures with copper and cadmium by computational method
Authors
Soumalya Chatterjee, Debraj Hazra, Rajat Pal
Abstract
As our civilization is developing with more and more advanced technologies and inventions, plant and animal kingdom both has started suffering from various complicated diseases and physiological disorders. Hence, new mode of treatment as well as new mode of drug delivery has to be evolved. Here nanoparticles have come to play an important role to be used as a vehicle for drug molecules, nanoparticles first must interact with them and the interaction is very much important in case of metal nanoparticles. Every metal nanoparticle will not be able to interact with equal efficiency to all drug molecules. For that reason the study of interaction is quite worthy. In our present study, we tried to formulate metal nanoparticles with two different metal atoms (Copper and Cadmium) and the formulated nanoparticles were interacted with Myricetin, a bioflavonoid, in several ways. The model structures for all drug metal nanocomposites were subjected for energy minimization to form the most stable structure. After energy minimization, it was observed that Cadmium can make more stable nanocomposite structure with Myricetin as its energy level is lower than that of Copper. Hence we can suggest that Cadmium could be more suitable to formulate nanocomposites with Myricetin rather than Copper.
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Pages:48-52
How to cite this article:
Soumalya Chatterjee, Debraj Hazra, Rajat Pal "Comparing the energy levels of myricetin nanocomposite model structures with copper and cadmium by computational method ". International Journal of Biology Research, Vol 6, Issue 2, 2021, Pages 48-52
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