Adsız tasarım-4
logo-uni-without time

Topics that will be covered


Through the Summer School there is an exceptional opportunity to benefit from both "learning about sustainable technologies" and "internationalization at home" as participants are exposed to a global academic environment. Listed below are the topics that will be discussed:

ITU-ISTANBUL TECHNICAL UNIVERSITY

1. Textile Materials and Technologies

  • Traditional materials and fabrication techniques in textiles
  • Sustainability challenges in traditional textile materials and technologies
  • Digitalization in the textiles industry and its effect on the circular transition
  • Overview of functional and smart materials for high-tech textile applications from the perspective of sustainability
  • Case studies ranging from sustainable materials to environmentally friendly technologies

TUM - TECHNISCHE UNIVERSITÄT MÜNCHEN

2. Multiphysics Modelling of Sustainable Materials and Components

  • The evolution of multiphysics simulation of materials and components from preprocessing to post-processing with the fundamental applications in the field of energy
  • Fluidic-thermal and mechanical behavior of materials and components
  • Approaching process interactions and hierarchical problem segmentation
  • Case studies ranging from zero-emission hydrogen technologies to complex composite structures

AUTH - ARISTOTLE UNIVERSITY OF THESSALONIKI

3. Circular Economy and Sustainability

  • Sustainable use of resources-towards a circular economy and waste-based bioeconomy
  • Technological solutions for circular bioeconomy in low-carbon transition-waste to energy
  • Fashion and circular economy-post-consumer textile thermochemical recycling to fuels and biocarbon
  • Plastics and the circular economy
  • Case studies on circular economy and sustainability

XJTU- XI’AN JIAOTONG UNIVERSITY

4. Two (2)-Dimensional Materials for Sustainable Electronic and Optoelectronic Devices Applications

  • The quantum effects and other physical properties of 2D materials
  • Synthesis methods and device fabrication technologies
  • Twistronics in magic-angle bilayer graphene and TMDC heterobilayers
  • Self-powered ultra-fast optoelectronic devices based on 2D topological semimetals
  • Case studies of specific 2D materials-based devices ranging from field effect transistors to IoT sensors
logo-time-uni