Workshop on Computational Modeling of Materials, Devices & Processes

workshop computational

The rise of high-performance computing, the development of novel computational approaches, and the application of modern algorithms mark a new era for the characterization, property tuning and discovery of materials. This Workshop will explore state-of-the-art methodologies and approaches for the modelling and optimization of materials, the material's behavior and/or nano-device manufacturing processes, as well as multiscale computational approaches that can play a key role towards the further advancement of the corresponding technologies and enable the manufacturing and characterization of breakthrough devices and systems.

During the Workshop a series of Invited talks, Oral and Poster presentations will be given covering different computational approaches (ranging from the atomic to the macro-scale or multiscale) applied on a broad range of subjects.

The Workshop includes (but are not limited to) Theoretical and Computational Modeling approaches to the following topics:

  • Ontology and interoperability
  • Computational materials design and discovery
  • High-throughput methods for materials characterization
  • Machine learning applications for materials
  • Material properties and processes at the nano-scale
  • Diffusion and film growth
  • Photonics, plasmonics, phononics and electronics
  • Strongly correlated electron systems, magnetism and spintronics
  • Multiscale modeling of devices and processes
  • Graphene and related 2D materials
  • Inorganic & Hybrid halide perovskites
  • Organic materials and properties
  • Organic electronic devices
  • Charge-transfer & exciton dynamics at hetero-interfaces

Workshop International Organizing Committee

E. Lidorikis, University of Ioannina, Greece
S. Logothetidis, Nanotechnology Lab LTFN, AUTh, Greece
G. Volonakis, Université de Rennes, France
P. Kelires, Cyprus University of Technology, Cyprus
M. Damnjanovic, University of Belgrade, Serbia

Organised by:

musicode logo EU H2020-MUSICODE: "An experimentally-validated multi-scale materials, process and device modelling & design platform enabling non-expert access to open innovation in the Organic and Large Area Electronics Industry"
www.musicode.eu
   
cornet logo EU H2020-CORNET: "Multiscale Modelling and Characterization to optimize the Manufacturing processes of Organic Electronics materials and devices"
www.cornet-project.eu

 

Disclaimer and Scam Information:
The NANOTEXNOLOGY 2025 Organizing Committee has been informed that third-party companies, pretending to be acting on behalf of the Organizers, have contacted the event speakers and attendees via telephone calls and emails requesting information for the payment of their registration fees and/or their accommodation.
We kindly ask you to DISREGARD these messages and to NOT proceed to any arrangement or payment to these third-party companies, because they do not represent in any way the Organizers.
The Organizers have not authorized any third-party entity to contact participants, attendees or exhibitors, regarding their registration and accommodation nor to distribute or sell attendees lists related to NANOTEXNOLOGY events. Please trust only the information and instructions at the Official NANOTEXNOLOGY 2025 website and the messages you receive only by the Organizing Committee. In case you receive a suspicious call or email, we kindly ask you to inform us.
Under no circumstances shall the Organizers be held liable or responsible for any claims, losses, damages, expenses or other inconvenience resulting from the actions of these third-party companies.

 

Signup for our newsletter and stay informed with latest NANOTEXNOLOGY news!





Please read our privacy policy.

 

ISFOE is Organized by

ltfnauth_logo cope-nano flex2energyrealnano logo nanonethope-aoet logo

ISFOE is Supported by

EC horizon europe nanonet ff2s logonanomecommons logomusicode logo mines st etlogo U2BX1oes logoazkportopalace logo