My name is Constantinos J. Revelas. Welcome to my GitHub webpage. 👋
I am a Doctor of Chemical Engineering and Computational Materials Science. I am also a software Engineer by training and
enthusiast of high permormance computing, scientific computing and investigation of algorithm complexity.
I am proficient and mostly write code in:
I am mostly a Linux user where I have experience in system administration, job monitoring and bash scripting.
The frameworks/platforms, libraries and editors I am most familiar with and use regularly are:
In terms of parallel programming I use the MPI (Message-Passing Interface) protocol for my own project and I also have some basic knowledge of CUDA, which I plan to extend in the future!
- Maintenance and Development of Operating Systems
- High Performance Computing
- Scientific Computing
- Numerical Analysis
- Computational Polymer Physics
- Design of Nanocomposite Materials
- Investigation of Thermodynamic Properties of Polymer Grafted Nanoparticles (PGNs)
- Tailoring Nanoparticle Orientation in Polymer Matrices via Nonuniform Grafting: Implications for Nanoparticle Dispersions and Self-Assembled Nanocomposite Morphologies (2024)
- Adressing Nanocomposite Systems via 3D-SCFT: Assessment of Smearing Approximation and Irregular Grafting Distributions (2023)
- Solvation Free Energy of Dilute Grafted (Nano)Particles in Polymer Melts via the Self-Consistent Field Theory (2022)
- RuSseL: A Self-Consistent Field Theory Code for Inhomogeneous Polymer Interphases (2021)
- Potential Of Mean Force between Bare or Grafted Silica/Polystyrene Surfaces from Self-Consistent Field Theory (2021)
- Stucture and Thermodynamics of Grafted Silica/Polystyrene Dilute Nanocomposites Investigated through Self-Consistent Field Theory (2021)
- A Three-Dimensional Finite Element Methodology for Addressing Heterogeneous Polymer Systems with Simulations Based on Self-Consistent Field Theory (2021)
- Phenol Hydrodeoxygenation over a Reduced and Sulfided NiMo/gamma-Alumina Catalyst (2019)