EPJ Web of Conferences (Jan 2019)

Simulation of benzylpenicillin molecule distribution in slit-shaped Si nanopores

  • Kryzhevich Dmitrij,
  • Zolnikov Konstantin,
  • Korchuganov Aleksandr,
  • Tsukanov Alexey,
  • Lotkov Aleksandr

DOI
https://doi.org/10.1051/epjconf/201922101024
Journal volume & issue
Vol. 221
p. 01024

Abstract

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A molecular dynamics study of the behavior of benzylpenicillin molecules in slit-shaped nanopores was carried out. A model silicon material with a pore size from 10 to 50 nm was chosen as a nanoporous structure. The interaction between benzylpenicillin molecules was described by a pair potential, built on the basis of modelling the molecule behavior by all-atom force fields. It was shown that an adsorbed layer of benzylpenicillin molecules is formed near the pore walls. With a decrease in the pore size, the maximum density of molecules in the adsorbed layer decreases, while the fraction of adsorbed molecules in the whole pore increases.