July 16 - 19 , 2023
10th US-Japan Joint Seminar on Nanoscale Transport Phenomena
Loews Coronado Bay Resort
4000 Coronado Bay Road Coronado, CA 92118
Poster Session and Reception
18:15 – 21:00 Monday July 17
Avalon (2nd floor)
Poster Guidelines:
The maximum allowed poster size is 44 inches (width) x 44 inches (height) or 111 cm (width) x 111 cm (height)
Please install your poster before the poster session (by 17:00 Monday July 17). The poster will be mounted onto a hard poster board. Pins will be provided.
Please remove your poster after the poster session (by 22:00 Monday July 17)
P-1. Sarath Adapa UC San Diego
Heat Transfer in Flowing Granular Media
P-2. Spencer Alliston UC Berkeley
Thermal Phase Identification in Cryopreserved Systems
P-3. Jillian Anderson Stanford University
Localized self-heating ECRAM arrays for efficient neuromorphic computation
P-4. Fuyuki Ando National Institute for Materials Science
Systematic Study of Transverse Thermoelectric Performances for Rare Earth Magnets
P-5. Divya Chalise Lawrence Berkeley National Lab/UC Berkeley
Probing interfacial electrochemical processes from frequency modulated thermal signatures using Multiharmonic ElectroThermal Spectroscopy (METS)
P-6. Jinghang Dai Cornell University
Understanding interfacial thermal transport via atomistic Green's function
P-7. Sree Sourav Das University of Virginia
Studying the thermoelectric properties of cubic-GeTe material from first principles
P-8. Tomu Hamakawa The University of Tokyo
Investigation of Heat Transport Mechanism in Cu2-δSe Using Molecular Dynamics method and Machine Learning Potentials
P-9. Sota Hirokawa Kyushu University
Direct observation of water and bubbles confined in graphene liquid cells
P-10. Jun Hirotani Kyoto University
Highly sensitive thermophysical property measurement for anisotropic materials using frequency-domain thermoreflectance with transducer patterning
P-11. Takuma Hori Tokyo University of Agriculture and Technology
Phonon transport simulations in polycrystalline nanostructure materials based on mean square displacement
P-12. Songrui Hou University of California Riverside
Relationship Between Vibrational Dynamics and Thermal Conductivity at High Pressure
P-13. Hiroki Imai The University of Tokyo
Evaporation from porous membranes with Low variance deviational simulation Monte Carlo
P-14. Takafumi Ishibe Osaka University
Heat transport physics at the amorphous/crystal interface
P-15. Byunggi Kim The University of Tokyo
Heat transfer enhanced by phonon-polaritons in nanofilm systems
P-16. Kazenosuke Kobayashi Kyushu institute of technology
Molecular dynamics simulations with machine learning potential for heat conduction across Bi2Te3-CsSnI3 interface.
P-17. Yaerim Lee The University of Tokyo
Dynamic wetting over asymmetric sawtooth surface microstructures
P-18. Yuxuan Liao The University of Tokyo
Observation of Coherent Phonon Dispersion Relations in a Superlattice
P-19. Yuxuan Luan University of Michigan, Ann Arbor
Probing near-field radiative heat transfer at cryogenic temperatures
P-20. Xiao Luo Carnegie Mellon University
Polymer Nanofiber Thermal Regulator and Diode
P-21. Devika Mehta University of Texas at Austin
Tuning and Probing Interfacial Thermal Conductance between Moiré Superstructures
P-22. Ramya Mohan University of Virginia
Quasi-Particle Interactions Governing Nanoscale Thermal Transport in the mid-IR Regime
P-23. Anjum Mustafa Kyushu Institute of Technology
Dopant Effect of Spin coated Halide Perovskite Thin films on Thermoelectric properties.
P-24. Masato Ohnishi The University of Tokyo
Thermoelectric Clathrate Compound: From First-principles Calculations, Material Synthesis, to Device Application
P-25. Zhiliang Pan Vanderbilt University
Contact Thermal Resistance between Individual Boron Nitride Nanotubes with Interlayers
P-26. Hyunggon Park UC Santa Barbara
Understanding the effects of extreme thermal field on the microstructure of additive manufactured materials
P-27. Abhishek Pathak Carnegie Mellon University
Assessing the Virtual Crystal Approximation for AlxGa1-xN Alloys
P-28. Soumyadeep Paul The University of Tokyo
Boiling Bifurcations inside Solid-State Nanopores
P-29. Yu Pei UC San Diego
Low-dimensional Heat Conduction in Phonon Polariton Waveguides
P-30. Donatas Surblys Tohoku University
Various Findings about Heat Transfer related to Solid-Liquid Interfaces via Investigation with Molecular Dynamics
P-31. Ryosuke Takehara Tokyo Institute of Technology
Contribution of Intermolecular Interactions to Thermal Transport in Organic Crystals
P-32. Yoko Tomo Stanford University / Kyushu University
Interfacial phenomena and thermal properties induced by nanoscale interactions
P-33. Gang Wan and Richard Randall Stanford University
Transport Mediated Selective Oxidation of Methane through Photocatalysis
P-34. Yijia Wu The University of Tokyo
Analysis of suppressed thermal transport in graphite by intercalation
P-35. Zixin Xiong Purdue University
Tuning Photon and Phonon Transport in Multi-Layer Structures for Thermal Barrier Coating Application
P-36. Bin Xu The University of Tokyo
High thermoelectric performance of bulk silicon by a 3-dimensional network structure
P-37. Dongyan Xu The Chinese University of Hong Kong/UC San Diego
High-thermopower Ionic Thermoelectric Hydrogel for Flexible Thermal Sensing
P-38. Kun Xu Stanford University
Imaging photoexcited states with nanometer spatial resolution using secondary electrons.
P-39. Yuichiro Yamashita National Institute of Advanced Industrial Science and Technology Switching of thermal conductivity of Y-Mg alloy hydrides with exposure to air/dilute H2 gas
P-40. Ziyang Ye University of Rochester
Dual-Mode Operando Raman Spectroscopy and Upconversion Thermometry for Probing Thermal Contributions to Plasmonic Photocatalysis
P-41. Bowen Zhang The University of Tokyo
One-dimensional van der Waals heterostructures as the active layer material of solar cells
P-42. James H. Zhang Massachusetts Institute of Technology
Scalable Materials for Highly Efficient Solar-Driven Evaporation
P-43. Jingyi Zhou University of Illinois at Urbana-Champaign
Thermal Conductivity of Polyurethane Thin Films