AI Article Synopsis
- The study investigates the motion of fullerene molecules (C36, C50, C60, C76, C80, C90) on a graphene substrate at specific temperatures using classical molecular dynamics methods.
- The research focuses on analyzing both translational and rotational movements, classifying motion based on displacement and diffusion coefficients while calculating potential energy using Lennard-Jones potential.
- Findings show that while C60 is less effective under various conditions, C90 and C76 are better candidates for applications in nanomachines or nanocarriers, highlighting the importance of molecular shape and motion characteristics.
Article Abstract
In the present study, the regime of motion of fullerene molecules on graphene substrate in a specific temperature range is investigated. The potential energy of fullerene molecules is analyzed using classical molecular dynamics methods. Fullerene molecules C36, C50, C60, C76, C80, and C90 are selected due to spherical shapes of different sizes and good motion performance in previous studies. Analysis of the motion regime at different temperatures is one of the main objectives of this study. To achieve this aim, the translational and rotational movements of fullerene molecules are studied independently. In the first step of the investigation, Lennard-Jone's potential energy of fullerene molecules is calculated. Subsequently, the motion regime of different fullerenes is classified based on their displacement and diffusion coefficient. Findings indicate C60 is not appropriate in all conditions. However, C90 and C76 molecules are found to be appropriate candidates in most cases in different conditions. As far as a straight-line movement is considered, the deviation of fullerene molecules is compared by their angular velocities. Although C60 has a lower angular velocity due to its symmetrical shape, it may not move well due to its low diffusion coefficient. Overall, our study helps to understand the performance of different fullerene molecules on graphene substrate and find their possible applications, especially as wheels in nanomachine or nanocarrier structures.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11303706 | PMC |
| http://dx.doi.org/10.1038/s41598-024-69359-7 | DOI Listing |
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