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    • Dynamics and rheology of cyclic polymer melts and solutions
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    • Mapping of atomistic simulation results onto the tube model for the dynamics of entangled polymers
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Laboratory of Statistical Thermodynamics and MacromoleculesLaboratory of Statistical Thermodynamics and Macromolecules
  • Home
  • People
    • Director
    • Previous Director
    • Secretary
    • Current Members
      • Senior Researchers
      • Research Associates
      • PhD Students
      • MSc Students
      • Diploma Thesis Students
    • Former Members
      • Research Associates
      • PhD students
      • MSc Students
      • Diploma Thesis Students
    • External Collaborators
  • Research activities
    • Dynamics and rheology of cyclic polymer melts and solutions
    • Polymer nanocomposites based on graphene
    • Constitutive equations for polymer melts guided by principles of nonequilibrium thermodynamics
    • Mapping of atomistic simulation results onto the tube model for the dynamics of entangled polymers
    • Multiscale modeling and simulation of polymer-based materials for use in microelectronics
    • Polymer membranes based on carbon nanotubes
    • Hierarchical simulation of microcrystalline PECVD silicon film growth and structure
    • Multi-scale modeling of soft nanostructured materials based on polymer adhesives
  • Publications
    • Articles in international refereed journals
    • Chapters in books
    • Books edited
    • Books writen
    • Conference proceedings
  • Projects
    • Ongoing research projects
    • Past projects
  • Education
    • Lectures
    • Posters
    • Training material
  • News & Open Positions
Home // Ongoing research projects
  • Show All
  • FORCE

    EC research project (H2020-NMBP-2016-2017) titled: Formulations and Computational Engineering (FORCE) Contract No: FORCE Total EC contribution: ~ 5,417 kEuro EC contribution to the Lab: 294 kEuro Duration: 2016-2020 Project

  • Limmat

    Incorporating nanosized particles in a polymer matrix can lead to new materials with significantly improved mechanical, electrical, optical, and thermal properties. This explains the large body of theoretical, modeling

  • BioSmartTrainee

    EC research project (H2020-MSCA-ITN-2014) titled: Training in Bio-Inspired Design of Smart Adhesive Materials (BioSmartTrainee) Contract No: DYNACOP Partners: LIFP-Dresden (coordinator), MPI-P, WU, ESPCI, BASF, Cambridge Univ., TUE, UPatras, AkzoNobel, URGO

  • News Archives

    • 2016 (2)
    • 2017 (6)
    • 2018 (17)
    • 2019 (8)

    News

    • PhD-candidates WANTED – H2020-MSCA-ITN “LimnoPlast”
      December 4, 2019
    • PhD position available at Texas A&M University
      November 20, 2019
    • Best presentation awards in WGP5
      November 7, 2019

    Laboratory of Statistical Thermodynamics and Macromolecules

    Department of Chemical Engineering
    Caratheodory 1
    GR 26504
    University Campus
    Patras

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