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|
 
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Sahn Nahm |
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| Korea Univ., Korea |
| Synaptic Plasticity and Metaplasticity of (Na0.5K0.5)NbO3 Thin Film for Artificial Synapses |
|
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Mirza I. Bichurin |
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| Novgorod State Univ., Russia |
| Magnetoelectric Composites: Modeling and Application |
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|
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Krystian Roleder |
|
| Univ. of Silesia, Poland |
| A Contribution to Understanding Mechanisms of Phase Transitions in Ferroics: BaTiO3, PbZrO3, PbHfO3 and EuTiO3 |
|
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Ho-Yong Lee |
|
| Sun Moon Univ., Korea |
| Current Status and Future Prospects of High Performance Piezoelectric Single Crystals: "Lead-based" and "Lead-free" |
|
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|
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Zuo-Guang Ye |
|
| Simon Fraser Univ., Canada |
| Subtle Competition between Antiferro- and Ferro-electric Orders in Lead Zirconate-Based Solid Solutions |
|
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Jing-Feng Li |
|
| Tsinghua Univ., China |
| KNN-based Lead-free Piezoceramics with High Piezoelectricity and Improved Thermal Stability |
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|
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Takeshi Morita | |
| Univ. of Tokyo, Japan |
| Resonant Frequency Tunable Langevin Transducer |
|
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Masaya Takasaki |
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| Saitama Univ., Japan |
| Tactile Sensation Rendering using Surface Acoustic Wave |
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Mutsuo Ishikawa |
|
| Toin Univ. of Yokohama, Japan |
| Characteristics of High Frequency and High Intensity Ultrasonic Transducers using Thickness Vibration Mode of Epitaxial Piezoelectric Films |
|
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Song Won Ko |
|
| XAAR, USA |
| High Reliability and Dielectric Breakdown Strength of Pb(Zr,Ti)O3 Thin Films via Microstructure Control of Seed Layer |
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|
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Seiji Kojima |
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| Univ. of Tsukuba, Japan |
| Uniaxial Relaxor Ferroelectrics with Filled and Unfilled Tungsten Bronze Structure |
|
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Manuel Hinterstein |
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| Karlsruhe Inst. of Tech., Germany |
| Strain Mechanisms in Lead-Free Piezoceramics |
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|
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Kenji Uchino |
|
| The Pennsylvania State Univ., USA |
| Photostrictive Actuators Based on Piezoelectrics |
|
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Jungho Ryu |
|
| Korea Inst. of Materials Science, Korea |
| Photon associated Thermal Processing for Magnetoelectric Heterostructures |
|
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|
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Kailiang Ren |
|
| Beijing Inst. of Nanoenergy and Nanosystems, China |
| Energy Harvesting Using Electroactive Polymers and Piezo Composite |
|
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Jung In Yang |
|
| Pennsylvania State Univ., USA |
| Reliability in Patterned Pb(Zr0.52Ti0.48)O3 Films for MEMS Applications |
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Hajime Nagata |
|
| Tokyo Univ. of Science, Japan |
| Mechanical Fracture Properties on (Bi0.5Na0.5)TiO3-Based Lead-Free Piezoelectric Ceramics |
|
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Wataru Sakamoto |
|
| Nagoya Univ., Japan |
| Reduction-Resistant Lead-Free Piezoelectric BaTiO3-Based Ceramics: Chemical Composition Modification, Properties Evaluation and Grain Orientation Control |
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|
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Satoshi Wada |
|
| Univ. of Yamanashi, Japan |
| Piezoelectric Enhancement of Bismuth-based Piezoelectric Materials based on Nano/Macro Complex Domain Configurations |
|
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Ke Wang |
|
| Tsinghua Univ., China |
| Nanoscale Piezoelectric Response and Domain Relaxation of (K,Na)NbO3-Based Lead-Free Ceramics |
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| |
|
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Guorong Li |
|
| Shanghai Inst. of Ceramics, China |
| Structure and Piezoelectric Profperties of Li1+ doped BaTiO3 Lead-Free Ferroelectric Ceramics |
|
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Genshui Wang |
|
| Shanghai Inst. of Ceramics, China |
| Phase Transition Related Properties in Lead Free Piezolectric Ceramics |
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| |
|
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Tae Kwon Song |
|
| Changwon Nat'l Univ., Korea |
| Optimization of Sintering Temperature for Lead-Free BiFeO3-BaTiO3 Ceramics with High Piezoelectric Performance and High Curie Temperature |
|
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Wook Jo |
|
| Ulsan Nat'l Inst. of Science & Tech., Korea |
| An Exemplary Strategy Making Lead-Free Piezoceramics Truly Alternative to PZTs |
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|
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Shujun Zhang |
|
| Univ. of Wollongong, Australia |
| Lead Free Ferroelectric Materials: The Applications Oriented Figures of Merit and Challenges |
|
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Haosu Luo |
|
| Shanghai Institute of Ceramics, China |
| Investigation of PMN-PT Single Crystals for Medical Ultrasonic Transducers |
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| |
|
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Seung-Hyun Kim |
|
| Brown Univ., USA |
| Lead-free Piezoelectric Thin Film-based Energy Harvesting and Storage Devices |
|
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Sheng-Guo Lu |
|
| Guangdong Univ. of Technology, China |
| Large Electrocaloric Effect in Relaxor Ferroelectrics, Antiferroelectrics and Lead-Free Multilayer Ceramic Capacitors |
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Juras Banys |
|
| Vilnius Univ., Lithuania |
| Microwave and THz Characterization of Materials |
|
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Holger Maune |
|
| Technische Universität Darmstadt, Germany |
| Microwave Liquid Crystal Technology |
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| |
|
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Patrick Mounaix |
|
| Univ. of Bordeaux, France |
| Production, Structural Characterization and THz Spectroscopy of TiO2 Spheres |
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|
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Hyun-Wook Lee |
|
| Ulsan Nat'l Inst. of Science and Tech., Korea |
| Understanding Interaction of Anode Materials in Lithium Ion Batteries through in Situ Transmission Electron Microscopy |
|
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Zhenda Lu |
|
| Nanjing Univ., China |
| Prelithiation of Si Nanocomposites for High Energy Anodes in Li-ion Battery |
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|
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Dong-Hwa Seo |
|
| Univ. of California, Berkeley, USA |
| The Origin of the Oxygen Redox Activity in Li-excess Cathode Materials for Li-ion Battery |
|
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Jihyun Hong |
|
| Stanford Univ., USA |
| Multielectron Redox Mechanism in Lithium-rich Layered Oxides for High-energy Lithium Ion Batteries |
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|
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Mauro Pasta |
|
| Univ. of Oxford, UK |
| Prussian Blue Analogues Materials for Energy Storage Applications |
|
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Min Ah Lee |
|
| Stanford Univ., USA |
| Rational Design of High Performance Organic Batteries |
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| |
|
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Riccardo Ruffo |
|
| Univ. of Milano-Bicocca, Italy |
| Reaction Mechanisms and Structure/Properties Correlations in Carbonaceous Anode Materials for Sodium Ion Batteries |
|
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Seok Woo Lee |
|
| Nanyang Technological Univ., Singapore |
| Mechanical Behavior of Silicon Anode of Lithium-ion Batteries |
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| |
|
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Tae-Hyun Bae |
|
| Nanyang Technological Univ., Singapore |
| Engineered Porous Materials for Recovery, Purification and Storage of Biomethane |
|
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Jongwoo Lim |
|
| Seoul Nat'l Univ., Korea |
| Lithium Compositional Spatiodynamics within Battery Primary Particles Revealed via Operando Scanning Transmission X-ray Microscopy |
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|
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|
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Aldo di Carlo |
|
| Univ. of Rome, "Tor Vergata", Italy |
| Tuning the Interface Properties of Pervoskite Solar Cells with Graphene and other Two-dimensional Materials |
|
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Nosang Vincent Myung |
|
| Univ. of California at Riverside, USA |
| Tailoring Thermoelectric Films by Electrodeposition |
|
| |
|
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Adam Schwartzberg |
|
| Lawrence Berkeley Nat'l Laboratory, USA |
| Exciton Diffusion In Cesium Lead Halide Perovskite Nanocrystals Organized In Ordered Nanoscale Assemblies |
|
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Francesca Brunetti |
|
| Univ. of Rome, "Tor Vergata", Italy |
| Perovskite Solar Cells Stability: An Overview on Lights and Shadows |
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| |
|
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Aleksandra Djurisic |
|
| Univ. of Hong Kong, Hong Kong |
| Stability of Perovskite Solar Cells |
|
 |
Francesco Di Giacomo |
|
| TNO/Solliance, Netherlands |
| Up-scalable Sheet-to-sheet Production of High Efficiency Perovskite Module and Solar Cells on 6-inch Substrate using Slot Die Coating Towards Roll-to-roll Processing |
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|
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Francesco Biccari |
|
| Univ. of Florence, Italy |
| Metal Halide Perovskites: A New Route in Optoelectronics |
|
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Mara Bruzzi |
|
| Univ. di Firenze, Italy |
| Defective States in CsPbBr3 and Their Role in Transport Properties |
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Jingbi You |
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| Inst. of Semiconductors, Chinese Academy of Sciences, China |
| Efficient and Stable of Planar Perovskite Solar Cells |
|
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Hongwei Han |
|
| Huazhong Univ. of Science and Tech., China |
| Stable Fully Printable Mesoscopic Perovskite Solar Cells |
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| |
|
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Seigo Ito |
|
| Univ. of Hyogo, Japan |
| Detail Analysis on Temperature Effects of NiO Hole Conducting Layer for Perovskite Solar Cells |
|
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Lioz Etgar |
|
| The Hebrew Univ. of Jerusalem, Israel |
| Two Dimensional Organic-inorganic Perovskite from Nanostructures to Solar Cells |
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| |
|
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Anita Wing Yi Ho-Baillie |
|
| The Univ. of New South Wales, Australia |
| Opportunities and Challenges of Perovskite Solar Cells |
|
 |
Andrew A. R. Watt |
|
| Univ. of Oxford, UK |
| Interface Engineering Colloidal Quantum Dot Solar Cells via Surface Chemistry and Band Gap Control |
|
| |
|
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Hiroaki Benten |
|
| Nara Inst. of Science and Tech., Japan |
| Nanostructures for Charge Transport of Donor/Acceptor Conjugated Polymer Blend Films Visualized by Conductive Atomic Force Microscopy |
|
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Han Young Woo |
|
| Korea Univ., Korea |
| P- and N-type Photovoltaic Molecules for Fullerene and Nonfullerene-based OPVs |
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| |
|
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Akinori Saeki |
|
| Osaka Univ., Japan |
| Charge Transport and Transfer in Perovskite Solar Cells Studied Using Microwave Spectroscopy |
|
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Sung-Yeon Jang |
|
| Kookmin Univ., Korea |
| Performance Improvement in Low Temperature Processed Colloidal Quantum Dot Solar Cells |
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Harumi Yokokawa |
|
| The Univ. of Tokyo, Japan |
| Durability of Low-Cost and High-Performance SOFCs – Recent Achievement of NEDO Projects in Cooperation among Industries, Research Institutes and Universities – |
|
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Songho Choi |
|
| MiCo Ltd., Korea |
| Approaches for the Cost Reduction of SOFC Technology |
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| |
|
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Katsuyoshi Kakinuma |
|
| Univ. of Yamanashi, Japan |
| High Durable and Active Pt and PtCo Alloy Catalysts Supported on SnO2 with Fused-aggregated Network Structure for Polymer Electrolyte Fuel Cells |
|
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Changhee Kim |
|
| Korea Inst. of Energy Research, Korea |
| Development of Advanced Alkaline Water Electrolyser |
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| |
|
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Tatsumi Ishihara |
|
| Kyushu Univ., Japan |
| Preparation of Tubular Type Solid Oxide Electrolysis Cell using LSGM Film Prepared by Dip-coating Method |
|
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Byungchan Bae |
|
| Korea Inst. of Energy Research, Korea |
| Synthesis and Characterization of Anion Exchange Multi-block Copolymer Membranes as Fuel Cells Application |
|
| |
|
 |
Denis Cumming |
|
| Univ. of Sheffield​, UK |
| Improving the Stability of Impregnated Solid Oxide Fuel Cell Electrodes using Atomic Layer Deposition |
|
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Rui Chen |
|
| Loughborough Univ., UK |
| Porous Metal Foam Flow Fields for Proton Exchange Membrane Fuel Cells: Scaling Up From Cell to Stack |
|
| |
|
 |
Guntae Kim |
|
| Ulsan Nat'l Inst. of Science & Tech., Korea |
| Exsolution Trends for in-situ Growth Catalytic Nanoparticles on Layered Perovskite |
|
 |
Anthony Kucernak |
|
| Imperial College London, UK |
| Non-Precious Metal Catalysts for PEFCs: Benefits and Disadvantages of Metal-N-C Oxygen Reduction Electrocatalysts |
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|
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|
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Saskia F. Fischer |
|
| Humboldt-Universität zu Berlin, Germany |
| Thermoelectric Properties of Nano- and Quantum Wire Systems |
|
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Pawel Ziolkowski |
|
| German Aerospace Center (DLR), Germany |
| Thermoelectrics at the German Aerospace Center (DLR): Materials, Characterization, Application Development |
|
| |
|
 |
Yaniv Gelbstein |
|
| Ben-Gurion Univ. of the Negev, Israel |
| Practical Considerations for Maximizing the Potential of Thermoelectric Materials for Power Generation Applications |
|
 |
Hohyun Lee |
|
| Santa Clara Univ., USA |
| Overlooked Aspects in Thermoelectric System and Module Design: Beyond ZT |
|
| |
|
 |
Kornelius Nielsch |
|
| Inst. for Metallic Materials, Germany |
| The Importance of 3D Topological Insulator for Thermoelectric Applications |
|
 |
Moon Ho Jo |
|
| IBS, Pohang Univ. of Science and Tech., Korea |
| Efficient Thermoelectric Conversions in Atomically Thin Materials |
|
| |
|
 |
Byungki Ryu |
|
| Korea Electrotechnology Research Inst., Korea |
| Predicting Thermo-Elecrtric Performances of Telluride Materials and Devices |
|
 |
Heiko Reith |
|
| Inst. for Metallic Materials, Leibniz-Inst. for Solid State and Materials Research, Germany |
| Micro-thermoelectric Modules for Local Heat Management of Photonic Devices |
|
| |
|
 |
Hyungyu Jin |
|
| Pohang Univ. of Science and Tech., Korea |
| Thermoelectric Energy Conversion Utilizing Spin Degree of Freedom |
|
 |
SuDong Park |
|
| Korea Electrotechmology Research Inst., Korea |
| A Development Trend of Thermoelectric Materials on Date Analysis |
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|
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|
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Toshio Kamiya |
|
| Tokyo Inst. of Tech., Japan |
| Present Status of Oxide Semiconductor: From Science to Applications |
|
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Elvira Fortunato |
|
| Universidade Nova de Lisboa, Portugal |
| Is the New Oxide Electronics (r)evolution Solution-based? |
|
| |
|
 |
Myung-Han Yoon |
|
| Gwangju Inst. of Science and Tech., Korea |
| Photoactivated Combustion for Crystalling Sol-gel Metal Oxide Semiconductors |
|
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Rodrigo Martins |
|
| Universidade Nova de Lisboa, Portugal |
| Metal Oxide Nanoparticle Engineering for Printed Electrochemical Applications |
|
| |
|
 |
Jr-Hau He |
|
| King Abdullah Univ. of Science and Tech., Saudi Arabia |
| Flexible, Foldable and Multi-Functional Paper-Based Electronics |
|
 |
Youn Sang Kim |
|
| Seoul Nat'l Univ., Korea |
| Droplet-flow-induced Electricity Generation on Electrolyte-insulator Interface |
|
| |
|
 |
Sang-Woo Kim |
|
| Sungkyunkwan Univ., Korea |
| High-Performance Nanogenerators with Multifunctional Triboelectric Nanomaterials |
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|
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|
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Man Hoi Wong |
|
| Nat'l Inst. of Information and Communications Tech., Japan |
| Unlocking the Potential of Ga2O3 MOSFETs for Power Electronics |
|
 |
Maojun Wang |
|
| Peking Univ., China |
| Normally-Off GaN MOSHEMT on Silicon Substrate with High Breakdown Voltage and Low Dynamic On-Resistance |
|
| |
|
 |
Tobias Erlbacher |
|
| Fraunhofer IISB, Germany |
| Future Bipolar Power SiC Device Trends |
|
 |
Tomasz Sledziewski |
|
| Fraunhofer Inst. for Integrated Systems and Device Tech. , Germany |
| Current Status and Challenges for SiC Power Devices |
|
| |
|
 |
Tymoteusz Ciuk |
|
| Inst. of Electronic Materials Tech., Poland |
| Silicon Carbide Epitaxy for Energy Efficient Devices |
|
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Jeong Hyun Moon |
|
| Korea Electrotechnology Research Inst., Korea |
| Effect of Implantation Temperature on Electrical Properties of Heavily Doped Nitrogen and Phosphorus in 4H-SiC |
|
| |
|
 |
Jae Kyoung Mun |
|
| ETRI, Univ. of Science & Tech. (UST), Korea |
| Current Status of ETRI's GaN Power Device Technology |
|
 |
Chang Heon Yang |
|
| Technix, Korea |
| Fabrication of High Voltage Silicon Carbide Schottky Barrier Diode as Various Condition on Commercial Base |
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|
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|
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Alexey Y. Kovalgin |
|
| Univ. of Twente, Netherlands |
| Pure-metal and Metal-nitride Films by Hotwire-assisted Atomic Layer Deposition |
|
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Hiromitsu Kozuka |
|
| Kansai Univ., Japan |
| Sol-Gel Transfer Technique for Fabricating Ceramic Thin Films on Plastics: Key Factors Allowing the Film Transfer |
|
| |
|
 |
Jeffrey McCord |
|
| Kiel Univ., Germany |
| Magnetic Domains Investigated by Magneto-optical Microscopy: Magnetoelectric Composites, Spin-waves in Thin Films and More |
|
 |
WooChul Jung |
|
| Korea Advanced Inst. of Science and Tech., Korea |
| High Electrode Activity of Nanostructured, Columnar Ceria Films for Solid Oxide Fuel Cells |
|
| |
|
 |
Jong Min Yuk |
|
| Korea Advanced Inst. of Science and Tech., Korea |
| Introduction and Application of Aberration-corrected Transmission Electron Microscopy |
|
 |
Sunho Jeong |
|
| Korea Research Inst. of Chemical Tech., Korea |
| 3D-Printable Highly Conductive Doughs and Their Application to Oxide Thin-Film Transistors |
|
| |
|
 |
Byung-Hyuk Jun |
|
| Korea Atomic Energy Research Inst., Korea |
| Irradiation Technology for Enhancing Properties of Electronic Materials |
|
 |
Hyun-Suk Kim |
|
| Chungnam Nat'l Univ., Korea |
| High Mobility Zinc Oxynitride Semiconductor for Next-Generation Display Applications |
|
| |
|
 |
Soon-Gil Yoon |
|
| Chungnam Nat'l Univ., Korea |
| Large-Scale High Quality Monolayer Graphene Grown Directly at Low Temperature via Plasma-Assisted Thermal CVD |
|
 |
Yeon Sik Jung |
|
| Korea Advanced Inst. of Science and Tech., Korea |
| Three-dimensionally Nanostructured Thin Films for Sensor and Energy-Conversion Applications |
|
| |
|
 |
S.V.N. Pammi |
|
| Chungnam Nat'l Univ., Korea |
| Noble Metallic (Ag) and Metal Oxide Nanoparticles Nanoparticles: Plant-Mediated Synthesis, Mechanistic Aspects of Synthesis, and Applications |
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|
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|
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Balu Balachandran |
|
| Argon Nat'l Lab., USA |
| Aerosol Deposition of Ceramic Dielectric Films for Capacitors in High-Temperature Power Inverters |
|
 |
Minoru Osada |
|
| Nat'l Inst. for Materials Science, Japan |
| 2D Oxides: Exploring New Flatland |
|
| |
|
 |
Akira Baba |
|
| Niigata Univ., Japan |
| Surface Plasmon Resonance Excitation Based Organic Device Applications |
|
 |
Jin Young Park |
|
| Kyungpook Nat'l Univ., Korea |
| Colloidal Lithographic Approaches to Developing Advanced Molecularly Imprinted Polymer Films |
|
| |
|
 |
Suck Won Hong |
|
| Pusan Nat'l Univ., Korea |
| Transparent, Flexible, and Stretchable Electrode Arrays for Electronic Circuits Based on Lithographically Patterned Metal Thin Film |
|
 |
Hong-Ki Kim |
|
| Pohang Univ. of Science and Tech., Kookmin Univ., Korea |
| Nano-electrotribological Studies of Triangular Defects in 4H-SiC Epilayer |
|
| |
|
_Seongjun Kim.jpg) |
Seongjun Kim |
|
| Pohang Univ. of Science and Tech., Chonbuk Nat'l Univ., Korea |
| Electrical Characteristics for AlInN:Mg/GaN High-electron Mobility Transistors |
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|
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|
 |
Johnny Ho |
|
| City Univ. of Hong Kong, Hong Kong |
| Enhanced Self-Assembly of Crystalline, Large-Area and Periodicity-Tunable TiO2 Nanotube Arrays on Various Substrates |
|
 |
Yu-Lun Chueh |
|
| Nat'l Tsing-Hua Univ., Taiwan |
| Low-Temperature Growth of 1D and 2D Materials: Highly Stable Transparent Materials/Electrodes in Harsh Environments Toward High- Efficiency Hydrogen Evolution Reaction |
|
| |
|
 |
Joon Hak Oh |
|
| Pohang Univ. of Science and Tech., Korea |
| Flexible Sensors Based on Organic and Polymeric Materials |
|
 |
Unyong Jeong |
|
| Pohang Univ. of Science and Tech., Korea |
| Stretchable Conducting Polymer Composites for a Wearable Sensor Platform |
|
| |
|
 |
Xugang Guo |
|
| South Univ. of Science and Tech., China |
| Design, Synthesis, and Applications of High-Performance Polymer Semiconductors in Organic Electronics |
|
 |
Zhiyong Fan |
|
| The Hong Kong Univ. of Science and Tech., Hong Kong |
| Integrated Nanostructures and Materials for Flexible and High-performance Electronic and Optoelectronic Devices |
|
| |
|
 |
Jiwon Kim |
|
| Yonsei Univ., Korea |
| Functional Organic/Inorganic Nanocomposite Materials and Beyond |
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| |
|
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|
 |
David Hwang |
|
| Stony Brook Univ., USA |
| Laser-assisted Energy Manufacturing |
|
 |
Daeho Lee |
|
| Gachon Univ., Korea |
| Nickel-based Devices Fabricated by Laser Reductive Sintering using Solution-processed Nickel Oxide Thin Films |
|
| |
|
 |
Kyung-Tae Kang |
|
| Korea Inst. of Industrial Tech., Korea |
| Laser Sintering Process of Nano Metal Inks for Printed Electronics |
|
 |
Keon Jae Lee |
|
| Korea Advanced Inst. of Science and Tech., Korea |
| Laser Material Interactions for Flexible Applications |
|
| |
|
 |
Seung Hwan Ko |
|
| Seoul Nat'l Univ., Korea |
| Selective Laser Processing of Metal Nanomaterials for Flexible and Stretchable Electronics |
|
 |
Hirofumi Hidai |
|
| Chiba Univ., Japan |
| Laser-induced Metal Sphere Migration in Glass |
|
| |
|
 |
Sukjoon Hong |
|
| Hanyang Univ., Korea |
| Laser Induced Thermochemical Growth of Functional Nanowires in Micro/Nanoscale |
|
 |
Ming-Tsang Lee |
|
| Nat'l Chung Hsing Univ., Taiwan |
| Laser Direct Metal Synthesis and Pattering on Flexible Substrates: Technology Development and Transport Phenomena Analysis |
|
| |
|
 |
Kazuyoshi Fushinobu |
|
| Tokyo Inst. of Tech., Japan |
| Topics on Materials Processing by Means of Modulated ns Nd:YAG Laser |
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|
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|
 |
Ziyi Ge |
|
| Ningbo Inst. of Material Tech. & Engineering, Chinese Academy of Sciences, China |
| Blue Fluorophores for Highly-efficient Hybrid White Organic Light-emitting Diodes |
|
 |
Hao-Wu Lin |
|
| Nat'l Tsing Hua Univ., Taiwan |
| Device Engineering and Optical Properties of Highly Efficient Near Infrared OLEDs |
|
| |
|
 |
Yusuke Hayashi |
|
| Mie Univ., Japan |
| High-Quality AlN Films by Face-to-Face Annealing and Its Applications for Second Harmonic Generation |
|
 |
Katsuaki Suzuki |
|
| Kyoto Univ., Japan |
| In Silico Material Design for Highly Efficient OLEDs and Multiscale Charge Transport Simulations |
|
| |
|
 |
Kyung-Sang Cho |
|
| Samsung Advanced Inst. of Tech., Korea |
| Optoelectronic Device Applications using Colloidal Quantum Dots |
|
 |
Hoi Wai Choi |
|
| Univ. of Hong Kong , Hong Kong |
| Broadband Nanorod+Microdisk Light-emitting Diodes |
|
| |
|
 |
Heesun Yang |
|
| Hongik Univ., Korea |
| I-III-VI Metal Chalcogenide Visible Quantum Dots-Based Light-Emitting Diodes |
|
 |
Chih-Jen Shih |
|
| ETH Zurich, Switzerland |
| Light Emitting Diodes Based on Quantum-Confined Two-Dimensional Perovskites |
|
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|
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|
 |
Keon Jae Lee |
|
| Korea Advanced Inst. of Science and Tech. , Korea |
| Self-Powered Flexible Inorganic Sensors and Electronics |
|
 |
Yuji Suzuki |
|
| The Univ. of Tokyo, Japan |
| Parylene and Its Derivatives as MEMS Materials |
|
| |
|
 |
Takeshi Kawano |
|
| Toyohashi Univ. of Tech., Japan |
| 3D Integrated Micro/Nanowire–based Neural Probe Devices |
|
 |
Dae-Hyeong Kim |
|
| Seoul Nat'l Univ., Korea |
| Soft Electronics for Biomedical Devices |
|
| |
|
 |
Inkyu Park |
|
| Korea Advanced Inst. of Science and Tech. , Korea |
| Micro/Nano-structured Soft Nanocomposite Materials for Physical Sensing |
|
 |
Jungchul Lee |
|
| Sogang Univ., Korea |
| Hydrogel Microelectromechanical Systems |
|
| |
|
 |
Jongbaeg Kim |
|
| Yonsei Univ., Korea |
| Suspended Nanostructures for Gas Sensing |
|
 |
Jianmin Miao |
|
| Nanyang Technological Univ., Singapore |
| High-performance Gas Sensing by Graphene: A Combined 3D Structural Design and Surface Functionalization |
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Il-Joo Cho |
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| Korea Inst. of Science and Tech., Korea |
| Wireless MEMS Neural Probe System for Mapping Neural Circuits |
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Won Il Park |
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| Hanyang Univ., Korea |
| Graphene Meshes for Biological Sensor and Optoelectronic Device Applications |
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Jong-Hyun Ahn |
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| Yonsei Univ., Korea |
| Graphene Based Touch Sensor for Wearable Electronics |
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Gwan-Hyoung Lee |
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| Yonsei Univ., Korea |
| Novel Approach Toward High Performance 2D Electronic Devices |
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Cheol-Joo Kim |
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| Pohang Univ. of Science and Tech., Korea |
| Layer-by-layer Assembly of Crystalline Films |
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Chih-Jen Shih |
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| ETH Zurich, Switzerland |
| Field-Effect Penetration through Two-Dimensional Materials |
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Kaihui Liu |
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| Peking Univ., China |
| Interfacial Engineering in 2D Materials |
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Soo Young Kim |
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| Chung-Ang Univ., Korea |
| Transition Metal Dichalcogenides for Organic Light Emitting Diodes and Phototovoltaic Cells |
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Maria Omastova |
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| Polymer Inst., Slovakia |
| Modified Graphene Oxide in Biosensor Application |
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Eva Majkova |
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| Polymer Inst., Slovakia |
| Nanofilms Composed of 2D Nanosheets: Formation, Properties and Applications |
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Yoshihiro Asai |
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| Nat'l Inst. of Advanced Industrial Science and Tech., Japan |
| Quantum Mechanical Whole Device Atomistic Simulation from Molecular Electronics to Nano-electronics Devices |
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Denis Andrienko |
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| Max Planck Inst., Germany |
| Molecular Design of Organic-organic Interfaces and Mixtures |
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Yoshitaka Tateyama |
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| Nat'l Inst. for Materials Science, Japan |
| DFT Molecular Dynamics Sampling Studies on Battery Phenomena and Materials on the Atomic Scale |
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Aloysius Soon |
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| Yonsei Univ., Korea |
| Playing With Phosphorene Origami: From Remarkably Low-energy Line Defects to Twisted Nanoribbons |
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Yoshiyuki Kawazoe |
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| Tohoku Univ., Japan |
| Penta-graphene - Recent Progresses - |
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Kahyun Hur |
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| Korea Inst. of Science and Tech., Korea |
| Controlling Wave Transport in Periodic and Quasiperiodic Structures |
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Hyungjun Kim |
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| Korea Advanced Institute of Science and Tech., Korea |
| Density Functional Theory in Classical Explicit Solvents (DFT-CES) |
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President: Seok-Jin Yoon