The maximum poster size is 119 cm (width) × 165 cm (height) or 46.8 inches (width) × 64.9 inches (height).
Presenters are asked to mount their own posters at the poster venue (Room 441, Bldg. 5, Department of Engineering) between 13:00 and 18:40 on June 25.
Posters will be taken down by seminar staff after the lunch break on June 26 and stored at the secretariat office, then returned to presenters on June 27.
Presenters who cannot attend on June 27 should collect their posters themselves between 10:00 and 16:00 on June 26.
18:40–21:00 Thursday, June 25, 2026 @Room 441, Bldg. 5, Department of Engineering
P-1 Masato Ohnishi (The University of Tokyo)
Enabling AI-Driven Discovery of Thermal Materials with a Large-Scale Phonon Database
P-2 Michimasa Morita (The University of Tokyo)
First-Principles Study of Thermal Conductivity in SiGe Alloys from 1 to 1000 K
P-3 Takashi Kodama (Kyushu Institute of Technology)
Engineering Thermal Conductivity of Carbon Nanotubes via Molecular Encapsulation
P-4 Jiun-Hung Yi (Rice University)
Alignment-Controlled Thermal Transport in Solution-Spun Carbon Nanotube Fibers
P-5 Aina Sumiyoshi (Tokyo University of Science)
Phonon-Induced Current Noise in Carbon Nanotubes across the Ballistic-Diffusive Crossover
P-6 Zhirui Liu (Kyoto University)
Revealing Dielectric Screening Effect in Structure-Sorted Single-Walled Carbon Nanotube Aggregates via Two-Photon Spectroscopy
P-7 Yuichiro Yamashita (AIST)
In-plane thermal transport character for Mo thin films with different fabrication methods
P-8 Xin Wu (The University of Tokyo)
Programmable flipping engineering for high thermal anisotropy in Janus MoSSe stacks
P-9 Byunggi Kim (Institute of Science Tokyo)
Femtosecond Laser Direct Writing for Scalable Phonon Engineering
P-10 Takafumi Ishibe (Osaka University)
Moisture electric output enhancement by controlling proton transport in sulfuric acid-intercalated graphene oxide film
P-11 Riku Enomoto (Institute of Science Tokyo)
Insights into Enhancing the Seebeck Coefficient of Liquid Thermogalvanic Conversion through Solvation Entropy Calculations Based on 3D-RISM Theory
P-12 Sean Lubner (Boston University)
From Gigaton CO2 Capture to Phonon-Molecule Coupling in Diamine MOFs
P-13 Katsuaki Hashikuni (Kyushu University)
Estimation of the Energy Balance of Natural Hydrogen through Geochemical Modeling Analysis
P-14 Marcos Vinicius Cerri Silva (Kyushu University)
Non-Contact Thermal Diffusivity Measurement of Microscale Samples in Ambient Air Using Infrared Thermography
P-15 Kota Hasegawa (Resonac Corporation)
Evaluation of nanoscale thermal transport property for heat assisted recording media using time-domain thermoreflectance method
P-16 Luke Min (Stanford University)
Thermal Conductivity Mapping of Diamond-Copper Composite using Scanning TDTR Microscopy
P-17 Emma Martin (University of Texas at Austin)
Probing Interlayer Heat Transfer with Dual Moiré Thermometry
P-18 Ashwath Bhat (University of California, Berkeley)
Dimensional Spectrometry: Fractal characterisation through frequency-domain thermal response
P-19 Masamichi Kohno (Kyushu University)
In Situ Raman Spectroscopy of Germanium in a Rotating Diamond Anvil Cell (RDAC) under High-Pressure Strain
P-20 Weitao Wang (The University of Tokyo)
Machine learning based simulation and measurement of Si/AlN/Cu interfaces for 3DIC thermal management
P-21 Hiroki Gonome (Yamagata University)
Photonically Driven Thermal Switching without Visible Color Change
P-22 Bo Zhao (University of Houston)
Nonreciprocal Thermal Transport of Radiation and Conduction Heat Flow
P-23 Dakota Braaten (Vanderbilt University)
Engineering Thermal Transport in Hyperbolic Materials via Induced Non-Equilibrium Phonon Polaritons
P-24 Ratul Mali (University of Michigan, Ann Arbor)
Extreme Near-Field Thermal Transport Between Gold Surfaces
P-25 Takamasa Hirai (NIMS)
Magnon engineering for controlling heat conduction
P-26 Xi Chen (University of California, Riverside)
Spin-mediated thermal transport in low-dimensional quantum magnets
P-27 Longji Cui (University of Colorado Boulder)
Atomic and single-molecule scale thermal transport
P-28 Ryosuke Takehara (Institute of Science Tokyo)
Understanding the Role of Hydrogen Bonding in Heat Transport in Organic Materials
P-29 Jiyoung Kim (Cornell University)
Nanoscale thermal transport in polymers
P-30 Shukai Cheng (Tohoku University)
Molecular Dynamics Study of Thermal Conductivity and Hydrogen-Bond Effects in Sugar Alcohol Phase Change Materials
P-31 Donatas Surblys (Tohoku University)
Evaluating solid-liquid interface affinity of complex surfaces via molecular dynamics
P-32 Yusuke Takaoka (Tohoku University)
An Automated Molecular Simulation and Machine Learning Framework for Organic Liquid Affinity on SAM-Modified Surfaces
P-33 Yuiko Tomita (The University of Tokyo)
Molecular Dynamics Insights into Gas Permeation in Polymer Membranes: Separation of Solution-Diffusion and Facilitated Transport Mechanisms
P-34 Gunjan Auti (The University of Tokyo)
Can transport laws emerge locally?
P-35 Mei Liu (The University of Tokyo)
Size and Curvature Effect on the Surface Charge of the Boron Nitride Nanochannels
P-36 Yuanzhe Li (The University of Tokyo)
Thermal transport across nanoconfined water layers
P-37 Ryohei Nagahiro (The University of Tokyo)
Transport of Water in Cellulose Nanofiber Materials: Humidity-Dependent Mass and Thermal Transport Properties
P-38 Yuting Guo (Kyoto University)
Molecular Dynamics Study of Local Oxide-Ion Transport in Ni-Dissolved YSZ
P-39 Masumi Misaka (Kyushu University)
Nanoscale visualization of wicking on surfaces with nanoscale roughness using coherence scanning interferometry
P-40 Hiroki Yachida (The University of Tokyo)
Towards dry antifogging by programmed droplet jumping
P-41 Bei Fan (Michigan State University )
Droplet Evaporation Dynamics and Intriguing Crystal Lift-off over Quasi-Liquid Surfaces for Reduced Salt Scale Adhesion
P-42 Yuki Akura (University of California San Diego)
Self-adaptive thin-film evaporation for high-heat-flux cooling using fiber membrane
P-43 James Zhang (Massachusetts Institute of Technology)
Thermofluidic Transport Properties of Diatoms for Two-Phase Thermal Management
P-44 Danielle Miller (Virginia Tech)
Synthetic Trees: From Fundamentals to Applications
P-45 Daniel Hirt (University of Virginia)
Transient investigation of convective cooling on a gold film in an atmospheric pulsed helium plasma
P-46 Joshua Martinez-Navarro (Stanford University)
Water vapor transport in confined geometries: Capillary-driven Dehumidification