E-MRS Fall Meeting

September 16–19, 2024 - E-MRS Fall Meeting (Warsaw, Poland)

Dr. Karoline Stolze is co-organizing the E-MRS symposium H "Integration of advanced materials on silicon: from classical to neuromorphic and quantum applications"


 

The 2024 Fall Meeting of the European Materials Research Society (E-MRS) will take place from September 16 to 19, 2024 at the main campus of the University of Technology in Warsaw (Poland) and will consist of parallel symposia with invited speakers, oral and poster presentations assorted by one plenary session to provide an international forum for discussing recent advances in the field of materials science.

The high-quality scientific program will address different topics organized into 20 symposia arranged in 4 clusters covering the fields of Energy materials; Electronics, photonics and spintronics; Nanomaterials and functional materials; and Modelling.

Together with Katarzyna Hnida-Gut, Jacopo Frigerio and Andrea De Iacovo, Karoline Stolze is organizing the symposium H on: "Integration of advanced materials on silicon: from classical to neuromorphic and quantum applications". It is committed to highlighting breakthroughs in the field of integration of alternative semiconductors as an add-on to a mature silicon technology platform. It will span research areas related to:
 

  • materials: group IV, III-V, II-VI, oxides, 2D materials, superconductor/semiconductor interfaces;
  • colloidal nanomaterials: advanced materials and their integration with silicon electronics;
  • hetero-integration techniques: advanced heteroepitaxy, wafer bonding, microstructure printing etc.;
  • simulation and applications that will benefit from such hybrid technologies: advanced CMOS, neuromorphic architectures, integrated photonics, quantum information and computation, and semiconductor plasmonics.
     

The 2024 symposium will be an arena to present and discuss how heterogeneous integration will help Si-based microelectronics to address tomorrow's challenges in modern societies, be it with higher performance (More Moore) or highly functionalized (More than Moore) chips.