We launch a workshop ELTC-NTM 2023 on the 5.5 years project entitled as "Investigation into unusual behaviors in electron and lattice thermal conductivity" in an area of "Creation of Innovative Core Technologies for Nano-enabled Thermal Management", JST-CREST program. This workshop will be held on July 29th, 2023 in Toyota Technological Institute (TTI), Nagoya, Japan.
Each group readers participating the project and some of their group members will make a talk about some recent breakthrough stories and successes obtained in the project. It aims to provide a platform for professors, young researchers, and students to discuss latest hot researches and achievements.
9:20
Opening remarks
Tsunehiro Takeuchi (TTI)
9:30-10:00
Achievements of Takeuchi Group in fundamental physics and applications
Tsunehiro Takeuchi (TTI)
10:00-10:15
Thermoelectric performance of amorphous Fe-V-W-Al thin films
Kavita Yadav (TTI)
10:15-10:30
Large transverse thermoelectric effect in Ag2Te
Kentaro Kuga (TTI)
Presentations from Tanigaki Group
10:40-11:15
Recent progresses of thermal associated research in Beijing Academy of Quantum Information Sciences (BAQIS)
Katsumi Tanigaki (BAQIS)
11:15-11:35
Anomalously large Seebeck in organic semiconductor rubrene single crystal for p- and n- carriers
Hidekazu Shimotani (Tohoku Univ.)
11:35- 11:50
2D materials-based photoelectronic and memory effect
Yaping Qi (Tohoku Univ.)
11:50-13:00
Lunch Time & Poster Session 1
Presentations from Shimojo Group
13:00-13:30
Theoretical Study of the Mechanism of Anomalous Lattice Thermal Conduction
Fuyuki Shimojo (Kumamoto Univ.)
13:30-13:55
First-Principles Study on the Thermoelectric Properties of Topological Multilayers in BiSbTe2S
Takao Tsumuraya (Kumamoto Univ.)
13:55-14:10
Shear-Stress Simulation of Silver Chalcogenides with Machine-Learning Interatomic Potentials
Hinata Hokyo (Kumamoto Univ.)
Presentations from Sato Group
14:20-14:50
Computational materials design of Ag- and Cu-based chalcogenides based on the Boltzmann transport theory with using first-principles band structure calculations
Kazunori Sato (Osaka Univ.)
14:50-15:08
The transport property analysis of intermetallic compounds TMSi (TM=Cr,Mn,Co,Fe,Ni,Rh) using Kubo-Greenwood formula
Katsuhiro Suzuki (Osaka Univ.)
14:50-15:08
Theoretical study on temperature-dependent electrical transport properties based on the first-principles approach
Kazunori Sato (on be half of H. Shinya)
Presentations from Okada Group
15:40-16:40
Exploration of Novel Electronic States in Low-Dimensional Materials and Their Contribution to Thermoelectric Effects
Yoshinori Okada
16:40-17:40
Poster Session 2
17:40
Closing remarks
Tsunehiro Takeuchi (TTI)
PS01
Spectral Thermal Conductivity of Silver Chalcogenides Using Machine-Learning Interatomic Potentials
Yura Hashiguchi, Kohei Shimamura, Akihide Koura, and Fuyuki Shimojo (Kumamoto Univ.)
PS02 (Cancelled)
Gate-tunable anomalous Hall effect in stacked van der Waals ferromagnetic insulator?topological insulator Heterostructures
Xingchen Pan
PS03
Computational materials design of Ag- and Cu-based chalcogenides based on the Boltzmann transport theory with using first-principles band structure calculations
Kazunori Sato (Osaka Univ.)
PS04
The transport property analysis of intermetallic compounds TMSi (TM=Cr,Mn,Co,Fe,Ni,Rh) using Kubo-Greenwood formula
K. Suzuki
PS05
Unconventional Fermi Liquid State in the Valence Fluctuating System Yb3Si5
K. Kuga (TTI)
PS06
Development of monolithic thermoelectric generators using high performance chalcogenide materials for ambient temperature applications
Artoni Kevin Ang (TTI)
PS07
Reduction of working temperature for the large magnitude in thermoelectric dimensionless figure of merit of Ag2-xCuxS
Kosuke Sato (TTI)
PS08
2D materials-based photoelectronic and memory effect
Yaping Qi (Tohoku Univ.)
PS09
Visualizing exotic phases in 2D antiferromagnetic semimetals
Yoshinori Okada (OIST, on be half of Y. Fujisawa)
Katsumi Tanigaki, Beijing Academy of Quantum Information Sciences
Fuyuki Shimojo, Kumamoto University
Kazunori Sato, Osaka University
Yoshinori Okada, Okinawa Institute of Science and Technology Graduate University
Kiichiro Hall, Toyota Technological Institute
2-12-1 Hisakata Tempaku-ku, Nagoya 468-8511, JAPAN
