Invited speakers

  1. Artem Oganov. Computational Search for Novel Thermoelectric Materials. Skolkovo Institute of Science and Technology, Russia.
  2. Thierry Caillat. Life Performance Prediction Approach for the Potential eMMRTG. Jet Propulsion Laboratory/California Institute of Technology, United States.
  3. Jean-Pierre Fleurial. A review of thermoelectric multicouple technologies for space power systems. Jet Propulsion Laboratory / California Institute of Technology, United States.
  4. Ryoji Funahashi. Examples of translational research using thermoelectric oxides. National Institute of Advanced Industrial Science & Technology, Japan.
  5. Antonio Pereira Gonçalves. Towards the use of Cu-S based synthetic minerals for thermoelectric applications. C²TN, Instituto Superior Técnico, Universidade de Lisboa, Portugal.
  6. Kunihito Koumoto. 2D Nanomaterials for Flexible Thermoelectrics. Nagoya Industrial Science Research Institute, Japan.
  7. Ken Kurosaki. Thermoelectric properties of nanostructured Si and metal silicide composites. Osaka University, Japan.
  8. Yuzuru Miyazaki. Recent Progress in Manganese Silicide Thermoelectric Material. Tohoku University, Japan.
  9. Yoichi Nishino. Pseudogap Engineering of Thermoelectric Materials based on Heusler Compound Fe2VAl. Nagoya Institute of Technology, Japan.
  10. Dmitry Pshenay-Severin. Structure and properties of topological semimetals. Ioffe Institute, Russia.
  11. Tsunehiro Takeuchi. Self-tuning carrier concentration effect and colossal values of ZT in Cu2Se. Toyota Technological Institute, Japan.
  12. Janusz Tobola. Electronic structure features of disordered semiconductors improving their thermoelectric performance. AGH University of Science and Technology, Faculty of Physics and Applied Computer Science, Poland.