Semifluorinated Polymer Membranes by Ring-Opening Metathesis Polymerization during Spin Coating

Date: 18 November, 2024 Dataset Title: Semifluorinated Polymer Membranes by Ring-Opening Metathesis Polymerization during Spin Coating Dataset Creators: Arun Srikanth Sridhar Dataset Contact: Arun Srikanth Sridhar: askforarun@gmail.com Prof. Clare McCabe: C.MCCABE@hw.ac.uk Funding: Division of Materials Research (Award #2119575) , Graduate Research Fellowship Program, HWU high performance computing facility (DMOG) Key Points: - Molecular simulations and experiments agree that fluorocarbon side chains align parallel to the surface in the bulk but normal to the surface at the interface. - Molecular simulations show preferential segregations of CF3 groups over CF2 and CH2 groups. - Fractional free volume increases upon flourination Research Overview: Molecular dynamics (MD) simulations were utilised to validate the theoretical and semi-empirical approaches employed and provide molecular level insight to the experientially observed behavior. Methodology: All simulations were conducted in NPT, NVT ensembles using GROMACS 2023.2. MDanalysis, mdtraj, and gromacs utility functions were used for postprocessing atomic trajectories. Files contained here: The PNBFN_SI folder contains two subfolders, PNBFN_signac and thickfilm_signac, a python file, analysis.py and a Jupyter notebook file, final_results.ipynb. Inside the PNBFN_signac folder you will find workspace folder. Each folder inside workspace folder corresponds to a specific polymer system. The information regarding the system is contained in signac_statepoint.json file. Inside any folder within the workspace folder of PNBFN_signac you will find 1) all the necessary GROMACS files to reproduce the simulations of bulk polymer systems. 2) The bash scripts used to run the simulations (for example 21stepbulk.sh is the script used to create bulk polymer systems ) in the cluster. 3) The free volume folders, freevol_300_0_2.8, freevol_300_500000_2.8, freevol_300_100000_2.8 contain the necessary files to reproduce the calculations carried out using pore blazer. Here, 300 refers to the temperature, the second item (0,500000,100000) refers to the time stamp (in ps), the third item 2.8 refers to the probe diameter. 4) log files. Inside the thickfilm_signac folder you will find workspace folder. Each folder inside workspace folder corresponds to a specific polymer film system. Inside any folder within the workspace of thickfilm_signac folder you will find 1) all the necessary GROMACS