8 research outputs found
Silver Nanoparticles as Chlorhexidine and Metronidazole Drug Delivery Platforms: Their Potential Use in Treating Periodontitis [Corrigendum]
Steckiewicz KP, Cieciórski P, Barcińska E, et al. Int J Nanomedicine. 2022;17:495–517.
Our authors have advised that the funding source number listed in the Acknowledgment section on page 513 was incorrect.
The sentence should read from “This work was supported by PRELUDIUM grant 2017/27/N/NZ7/0267 from the Polish National Science Centre…” to “This work was supported by PRELUDIUM grant 2017/27/N/NZ7/02675 from the Polish National Science Centre…”
The authors apologize for this oversight
Modeling aromatic liquids:Â toluene, phenol, and pyridine
Aromatic groups are now acknowledged to play an important role in many systems of interest. However, existing molecular mechanics methods provide a poor representation of these groups. In a previous paper, we have shown that the molecular mechanics treatment of benzene can be improved by the incorporation of an explicit representation of the aromatic π electrons. Here, we develop this concept further, developing charge-separation models for toluene, phenol, and pyridine. Monte Carlo simulations are used to parametrize the models, via the reproduction of experimental thermodynamic data, and our models are shown to outperform an existing atom-centered model. The models are then used to make predictions about the structures of the liquids at the molecular level and are tested further through their application to the modeling of gas-phase dimers and cation−π interactions