※Poster Size:A0 portrait format (841 mm wide × 1189 mm high)
※Please post your poster in the Taiwan Tech Gallery before 12 PM on November 25. (海報請自行列印輸出,於11/25(會議第一日)中午前至IB 1樓台科藝廊張貼,現場提供海報膠帶供張貼使用,請勿自行使用膠水或一般膠帶。)
| Jing-Yan Wu | National Cheng Kung University | Topic 1-1 Exploring Surface Stability of Li-Argyrodite Solid Electrolytes Using First-Principles Calculations Combined with Machine-Learning Interatomic Potentials |
| Abebe Taye | National Taiwan University of Science and Technology | Topic 1-2 Boosting anode interfacial stability in All-Solid-State lithium hybrid batteries with MCMB-Modified stainless steel current collector |
| Huy Hoang Dang | National Taiwan University of Science and Technology | Topic 1-3 Machine-Learning Interatomic Potentials Enable Efficient and Accurate Molecular Dynamic Simulations for All-Solid-State Li-Ion Batteries |
| Chao-Hsiang Hsu | National Taiwan University of Science and Technology | Topic 1-4 Ab initio study on understanding and mitigating interfacial degradation in solid-state lithium batteries |
| Bereket Woldegbreal Taklu | National Taiwan University of Science and Technology | Topic 1-5 Reaction-induced heat evolution and interface stabilization from bifunctional chlorine-rich anode for sulfide solid-state batteries |
| ChiaLung Hsieh | National Taiwan University of Science and Technology | Topic 1-6 Enhancing Ionic Conductivity and Moisture Stability in Br-rich Argyrodite Electrolytes for All-Solid-State Batteries through Structural Optimization and Doping |
| Elango Balaji T | National Taiwan University of Science and Technology | Topic 1-7 Probing Li2S Activation Mechanism in Lithium–Sulfur Batteries |
| Berhanu Degagsa | National Taiwan University of Science and Technology | Topic 1-8 Intrinsically-ductile Argyrodite Solid Electrolytes to Improve the Performance of All-Solid-State Lithium Batteries |
| Cheng-Hsun Chuang | Chung Yuan Christian University | Topic 1-9 Synthesis and Optimization of AlF3-modifed Li5.5PS4.5Cl1.5 Solid Electrolytes for Li All Solid State Batteries |
| Lammi Terefe Kitaba | National Taiwan University of Science and Technology | Topic 1-10 Overcoming Chemo-Mechanical Instability at Silicon-Solid Electrolyte Interfaces in Solid-State Batteries |
| Celastin Bebina Thairiyarayar | Chung Yuan Christian University | Topic 1-11 Microstructure optimizations of Na 3 SbS 4 /Na 3 Zr 2 Si 2 PO 12 composite solid electrolytes for improving cycling performance in Sodium All-solid-state batteries |
| Yu Lo | Chung Yuan Christian University | Topic 1-12 Synthesis of Inorganic Li6PS5Br Sulfides-Based Solid Electrolytes by High Energy Ball Milling for All-Solid-State Lithium Batteries |
| Yu-Ting Tai | National Cheng Kung University | Topic 2-1 Revealing cobalt-induced Li-ion trapping at the LATP/LCO interface with a fine-tuned machine learning interatomic potential |
| LiLun Lin | National Cheng Kung University | Topic 2-2 Uncovering Dopant-Induced Modulation of Na-Ion Dynamics in Na 5 Y 1-x La x Si 4 O 12 Solid Electrolyte via First Principles calculation and Machine Learning Interatomic Potentials |
| Yuan-Ting Hung | National Taiwan University | Topic 2-3 Exploring Dehydration Mechanisms and Conductivity Optimization in Li3InCl6·xH2O via in situ Synchrotron Techniques |
| Hong-Yi Chao | National Taiwan University of Science and Technology | Topic 2-4 Ab Initio–Assisted Development of Dual Solid-State Electrolytes for All-Solid-State Lithium Batteries |
| YuChih YUAN | Chung Yuan Christian University | Topic 2-5 Synthesis and Characterizations of Cr3+-doped Li1.3Al0.3Ti1.7(PO4)3 Solid Electrolytes for Lithium All-Solid-State Battery Applications |
| Yu-Hsuan Lin | National Cheng Kung University | Topic 3-1 2D Continuum Modeling to Predict Lithium-Ion Conductivity, Transport |
| Jing Lin | National Taiwan University of Science and Technology | Topic 3-2 Bilayer Gel Polymer Electrolytes for Lithium-Ion Batteries |
| Huaishu Yang | National Taiwan University | Topic 3-3 Single-Ion Conducting Latex Binders for Silicon-Carbon Anodes ofLithium-Ion Batteries |
| Ayan Sarkar | National Taiwan University | Topic 3-4 Quasi-Solid-State Polymer Electrolyte with a Room Temperature |
| Jiaen XU | National Taipei University of Technology | Topic 3-5 Robust and Intimate Interface Enabled by Silicon Carbide as an Additive to Anodes for Lithium Metal Solid-State Batteries |
| ChunJan Lai | National Taipei University of Technology | Topic 3-6 Toward Anode-less Lithium Metal Batteries Enabled by Garnet-Based Composite Polymer Electrolytes |
| Shih Kang Yeo | National Taiwan University | Topic 3-7 Gel Polymer Electrolytes from Sulfonated Chitosan-graft-PEO for Lithium Metal Batteries |
| Hungwei Chen | National Sun Yat-sen University | Topic 3-8 Composite pelymer electrolyte composed of crown ether-based polypropylene carbonate and aramid nanofiber framework in all solid state lithium-sulfur batteries |
| Youzhen Lin | National Sun Yat-sen University | Topic 3-9 Application of Multifunctional Block Copolymers in Solid Polymer Electrolytes for Lithium-sulfur Batteries |
| Yichien Cheng | National Sun Yat-sen University | Topic 3-10 Nanofiber-Reinforced and Sulfide-Catalyzed Composite Electrolytes for Stable Li-S Batteries |
| JIA YI SHI | National Sun Yat-sen University | Topic 3-11 Engineering Janus Composite Electrolytes with Catalytic Yolk-Shell Manganese Oxide@C Nanorods and Polyimide Frameworks for Durable Lithium-Sulfur Batteries |
| Chihuai Su | National Cheng Kung University | Topic 3-12 Building an Ultra-thin and Solvent-free Polymer Electrolyte Architecture for Lithium Metal Batteries |
| Tripti Agnihotri | National Taiwan University of Science and Technology | Topic 3-13 Porous 3D Gel Polymer Electrolytes Enabling Stable Anode-Free Li-Metal |
| Ching-Hsun Wu | National Cheng Kung University | Topic 3-14 Li+ Migration in Composite Polymer Electrolyte and Interphase Layers for Solid-State Lithium Batteries |
| Tsung-I Yeh | National Taiwan University of Science and Technology | Topic 3-15 Thin Membrane Sulfide Polymer Composite Solid Electrolyte with High Li-Ion Conductivity and Mechanical Strain Tolerance |
| Chia-Wei Tsai | National Cheng Kung University | Topic 3-16 In-Situ Constructed Flame-Retardant Solid Polymer Electrolyte toward High-Safety Lithium Metal Batteries |
| Leyela Hassen Adem | National Taiwan University of Science and Technology | Topic 3-17 Solid-state Polymer electrolytes, polymer binders |
| Ming Chieh Hsiao | National Taiwan University of Science and Technology | Topic 4-1 Plasma-Engineered Plasmonic–Quantum Photothermal Materials for Sustainable Water Harvesting |
| Tzu Yin Wang | National Taiwan University of Science and Technology | Topic 4-2 Microplasma-Synthesized Ag-MOF/GQD Biohybrid Sponges: Interface- Enhanced Properties for Sustainable Solar Water Treatmen |
| Limatu Kebede Nurgi | Mattu University | Topic 4-3 GIS BASED SITE SUITABILITY ANALYSIS FOR POND PRODUCTION OF NILE TILAPIA (OREOCHROMIS NILOTICUS) IN WEST SHOA ZONE, CENTRAL ETHIOPIA |
| Po-Yu, Li | National Taiwan University | Topic 4-4 Development of Sustainable Chitosan-Derived Anion Exchange Membranes for Low-Energy Hydrogen Production |
| Yu Cheng Zheng | National Taiwan University of Science and Technology | Topic 4-5 14-point Arial bold font, centered |
| Liang-Kai Chen | National Taiwan University of Science and Technology | Topic 4-6 Thermodynamically Guided Ammonia-Free Coprecipitation of Hydroxide for Single-Crystal Cathode Materials |
| Shadab Ali Ahmed | National Taiwan University of Science and Technology | Topic 4-7 Residue-to-Coating Conversion Engineering for Durable Single-Crystal Ni-Rich Cathodes |
| Kassie Nigus Shitaw | National Taiwan University of Science and Technology | Topic 4-8 Potassium Underpotential Deposition for Defect-Free Lithium Deposition in Anode-Free Li-Metal Batteries |
| Teklay Mezgebe Hagos | National Taiwan University of Science and Technology | Topic 4-9 Enabling Ether Electrolyte for Anode-Free Lithium Metal Batteries by Weakening Solvation Power via Asymmetric Dimer Formation |
| Zabish Bilew | National Taiwan University of Science and Technology | Topic 4-10 Multifunctional Electrode-Integrated PVDF-HFP/Kevlar Nanofiber Separator |
| Rehbar Hasan | National Taiwan University of Science and Technology | Topic 4-11 A Signal Processing Framework for Preemptive Detection of Soft Shorts in Lithium-Metal Batteries |
| Yu Cheng Zheng | National Taiwan University of Science and Technology | Topic 4-12 Quantifying Lattice–Crack–Electrochemical Transport Coupling for Durable, Fast-Charging Battery Cathodes |