Session Details
Poster Session 2
Wed. Mar 5, 2025 4:00 PM - 5:30 PM JST
Wed. Mar 5, 2025 7:00 AM - 8:30 AM UTC
Wed. Mar 5, 2025 7:00 AM - 8:30 AM UTC
Poster(Student CafeteriaⅠ)
[05P-01]An Ultralow Voltage Driven Non-Thermal Plasma Source: Pulling Arc Discharge
*Xiangen Zhao1, Biemeng Jin1, Yang Liu2, Yaping Du1 (1. The Hong Kong Polytechnic University (Hong Kong), 2. Huazhong University of Science and Technology (China))
[05P-02]Development and Measurement of a Gas Temperature Controllable Atmospheric-Pressure Plasma Jet System for Plasma Bio Research
*Keren Lin1, Shinji Yoshimura1, Motoshi Goto1, Takayoshi Tsutsumi2, Wataru Kikuchi3, Jun Enomoto3, Hiroshi Akatsuka3 (1. National Institute for Fusion science (Japan), 2. Nagoya University (Japan), 3. Tokyo Institute of Technology (Japan))
[05P-03]Suppression of Gap Discharge and Improvement of Plasma Production Efficiency
*Hiroto Matsuura1, Lin Guan1, Tatsushi Yano1, Ryoko Asada1 (1. Osaka Metropolitan University (Japan))
[05P-04]Electron Beam Injection into Spiral Plasma Using Plasma-Heated LaB6 Electrode
Ryuki Iwai1, *Noriyasu Ohno1, Hirohiko Tanaka1, Shin Kajita2 (1. Nagoya University (Japan), 2. The University of Tokyo (Japan))
[05P-05]Influence of External Magnetic Field on Plasma Density in a Low-Aspect Ratio, Large-Diameter, RF Plasma Source Using a Spiral Antenna
*Takeru Furukawa1, Riku Hosoda1, Keigo Kamiuchi1, Hiromasa Takeno1 (1. Kobe University (Japan))
[05P-06]Spatial Distribution of Ion Density in a RF Magnetron Plasma with PFA Target for Hydrophobic Film Preparation
*Yasunori Ohtsu1, Ryohei Kuno1, Takeshi Yasunaga2, Yasuyuki Ikegami1 (1. Saga University (Japan), 2. Osaka Electro-Communication University (Japan))
[05P-07]Study on the Influence of Dielectric Parameters on Plasma Uniformity in Dielectric Barrier Discharge
*Tzu Hsuan HSU1, Hua Lin Chen1,2, Bo Jan Chen1, Jong Shinn Wu1 (1. National Yang Ming Chiao Tung University (Taiwan), 2. Taiwan Instrument Research Institute (Taiwan))
[05P-08]Role of Inner-Ring Magnetic Strength and Gas Pressure on Central Hydrogen Plasma Confinement in a Hybrid MCMF Driven RF Powered CCP Discharge with Hollow Cathode
*Md Hasibul Islam1, Yasunori Ohtsu1 (1. Saga University (Japan))
[05P-09]Characteristics of DC Powered Hollow Cathode Discharge via COMSOL 2D Simulations
*Salini Datta1, Bibhuti Bhusan Sahu2 (1. Ph.D. Student, IIT Delhi, India (India), 2. Professor, IIT Delhi, India (India))
[05P-10]Preliminary Studies on the Discharge Characteristics of Magnetron Plasma
*Nisha .1, Bibhuti Bhusan Sahu1 (1. Ph.D Research Scholar, MFPL, DESE, IIT DELHI (India))
[05P-11]Initial Experimental Results of a Hybrid Plasma Source using Hot Cathode Arc Discharge and Helicon Wave Discharge
*Yuta Kinashi1, Naomichi Ezumi1, Takumi Seto1, Reina Miyauchi1, Hiro Bhattarai1, Tahei Yamazaki1, Mafumi Hirata1, Junko Kohagura1, Satoshi Togo1, Mizuki Sakamoto1, Noriyasu Ohno2 (1. Plasma Research Center, University of Tsukuba (Japan), 2. Nagoya University (Japan))
[05P-12]Development and Preliminary Test of Thomson Scattering System for Atmospheric Pressure Plasma Jet
*Young-Gi Kim1, Seungil Park1, Jong-ha Lee1, Ha Jin Kim1, Geunhyeong Park1, Jongmin Lee2 (1. Korea Institute of Fusion Energy (Korea), 2. Seoul National University (Korea))
[05P-13]Development of 10 ~ 240 GHz Microwave Interferometer for Plasma Diagnostics
*Daisuke Kuwahara1 (1. Chubu University (Japan))
[05P-14]Reconstruction of Three-Dimensional Plasma Emission Structure Based on Multi-View Images
*Ryota Izumi1, Manabu Kyuzo1, Hayato Yoshikawa1, Haruka Suzuki1, Hirotaka Toyoda1,2 (1. Nagoya University (Japan), 2. National Institute for Fusion Science (Japan))
[05P-15]Differences in Data Characteristics According to VI Probe Measurement Position in ICP Plasma
*Yonghyun Kim1, Jong-Sik Kim1, Dae-Chul Kim1 (1. Korea Institute of Fusion Energy (Korea))
[05P-16]Overview of KSTAR Thomson Scattering Diagnostics
*Jong-ha Lee1,2, Hajin Kim1, Geunhyeong Park1,2, Young-Gi Kim1 (1. Korea Institute of Fusion Energy (KFE) (Korea), 2. University of Science & Technology (UST) (Korea))
[05P-17]Influence of Air-Exposure on Surface Composition of Plasma-Exposed Polyethylene Terephthalate Film
*Tomoya Murase1, Haruka Suzuki1, Hirotaka Toyoda1,2 (1. Nagoya University, Japan (Japan), 2. National Institute Fusion Science, Japan (Japan))
[05P-18]Estimation of Wide-Area Plasma Parameter Distributions Based on Helium Emission and Thomson Scattering Measurements
*Hirohiko Tanaka1, Yuta Uematsu1, Ryoji Mano1, Noriyasu Ohno1, Shin Kajita2 (1. Nagoya University (Japan), 2. The University of Tokyo (Japan))
[05P-19]Electron Number Density Measurement of High-Density Laser Ablation Plasma Using Laser Absorption in Vacuum Conditions
*Kiyoung Seong1, Kyunho Kim1, Moon Soo Bak1 (1. Sungkyunkwan University (Korea))
[05P-20]Self-Plasma Optical Emission Spectroscopy for Highly Sensitive Vacuum Leak Detection with Chemical Species Addition
*Min-Gu Kang1, Chang-Woo Son1, Moon Soo Bak1 (1. Sungkyunkwan University (Korea))
[05P-21]Measurements and Modeling of N2(A,v) in a Nanosecond Pulsed Glow Discharge at Sub-Atmospheric Pressure
*Jan Kuhfeld1, Koichi Sasaki1 (1. Hokkaido University (Japan))
[05P-22]Effect of External Circuit Impedance and Process Condition in a Capacitively Coupled VHF Plasma
*Sang-Hyeok Park1, Yonghyun Kim1, Dae-Chul Kim1, Jongsik Kim1 (1. Data Research Team, Institute of Plasma Technology, Plasma E.I. Convergence Research Center, Korea Institute of Fusion Energy (Korea))
[05P-23]Effects of External Electric Fields on Gas Flow and Charged Particles in Atmospheric Pressure Plasma Jet
*Hiromasa Yamada1 (1. National Institute of Technology, Nagano College (Japan))
[05P-24]Exploring Multiple Solutions of Electron Temperature and Density in the Argon Collisional-Radiative Model Using Monte Carlo Simulations
*Yuchen Ye1, Kenta Doi2, Tetsuji Kiyota2, Kazuki Shimatani1, Ayaki Sakurai1, Wentao He1, Yuya Yamashita1, Wataru Kikuchi1, Atsushi Nezu1, Hiroshi Akatsuka1 (1. Institute of Science Tokyo (Japan), 2. ULVAC, Inc. (Japan))
[05P-25]A Novel Plasma Water Purification Device for Medical Wastewater Treatment
Wei-Cheng Lin1, Chih-Yu Ke1, *Wen-Hui Kuan1 (1. Ming Chi University of Technology (Taiwan))
[05P-26]A Microplasma Contactor Operated Using Differential Pressure
*Tatsuru Shirafuji1, Haruki Kato1, Kazuaki Shinpo1, Keisuke Yoshida1, Jun-Seok Oh1, Motoko Takaoka2, Kazuyuki Noborio3, Koushi Taguchi3 (1. Osaka Metropolitan University (Japan), 2. Kobe College (Japan), 3. Checkers Co., Ltd. / SAKIGAKE-Semiconductors Co., Ltd. (Japan))
[05P-27]Discharge in the Bubbles for Cu-EDTA Decomposition
*Most Tauhida Tabassum1, Yusuke Nakagawa1, Fumiyoshi Tochikubo1 (1. Tokyo Metropolitan University (Japan))
[05P-28]The Impact of the Spiral Electrode on Plasma Activated Nanobubbles
*Bo-Jan Chen1, Hua-Lin Chen1,2, Tzu-Hsuan Hsu1, Jong-Shinn Wu1 (1. National Yang Ming Chiao Tung University (Taiwan), 2. Taiwan Instrument Research Institute (Taiwan))
[05P-29]Introducing Highly Active Chemical States on NiCo-MOF/CP Using Atmospheric Pressure Plasma Jet for Anion Exchange Membrane Water Electrolysis
*Zhi-Hui Pu1, Shuo-En Yu1, Cheng-Che Hsu1, I-Chih Ni1, Chih-I Wu1, Nitika Devi2, Chang-Xin Liu2, Yong-Song Chen2, I-Chun Cheng1, Jian-Zhang Chen1 (1. National Taiwan University (Taiwan), 2. National Chung Cheng University (Taiwan))
[05P-30]Atmospheric-Pressure Plasma Jet Treatment for Enhanced Oxygen Evolution Reaction of NiMoO4/Carbon Paper Electrocatalysts in Anion Exchange Membrane Water Electrolysis
*Chen-Chen Chueh1, Shuo-En Yu1, Hsing-Chen Wu1, Cheng-Che Hsu1, I-Chih Ni1, Chih-I Wu1, I-Chun Cheng1, Jian-Zhang Chen1 (1. National Taiwan University (Taiwan))
[05P-31]A Low-Cost, Large-Area Processing Compatible DC-Pulse Atmospheric Pressure Plasma (APP) Processed Electroplated NiFe Electrocatalyst on Carbon Paper as the Anode for Anion Exchange Membrane Water Electrolysis (AEMWE)
*Shuo-En Yu1, Yu-Lun Su2, I-Chih Ni3, Yi-Cheng Chuang4, Cheng-Che Hsu5, Chih-I Wu1,3, Yong-Song Chen4, I-Chun Cheng3, Jian-Zhang Chen1,2,6 (1. Graduate School of Advanced Technology, National Taiwan University (Taiwan), 2. Institute of Applied Mechanics, National Taiwan University (Taiwan), 3. Graduate Institute of Photonics and Optoelectronics and Department of Electrical Engineering, National Taiwan University (Taiwan), 4. Department of Mechanical Engineering and Advanced Institute of Manufacturing with High-Tech Innovations, National Chung Cheng University (Taiwan), 5. Department of Chemical Engineering, National Taiwan University (Taiwan), 6. Advanced Research Center for Green Materials Science and Technology, National Taiwan University (Taiwan))
[05P-32]Ar and O2 Microwave Plasma Treatment on Electrochemically Deposited FeCo/Titanium Fiber Paper Electrocatalyst for Alkaline Water Electrolysis.
*Hsing-Chen Wu1, Shuo-En Yu1, Jui-Yu Tung2, Shang-Lin Hsieh2, I-Chun Cheng1, Meng-Jiy Wang2, Jian-Zhang Chen1 (1. National Taiwan University (Taiwan), 2. National Taiwan University of Science and Technology (Taiwan))
[05P-33]Advancing Graphene Functionalization Using Plasma-Activated Solution
*André Petraconi1, Felipe Miranda1, Douglas Marcel Gonçalves Leite1, Rodrigo Sávio Pessoa1, Argemiro Soares da Silva Sobrinho1 (1. Aeronautics Institute of Technology (Brazil))
[05P-34]Thermal Plasma Technology for Green Waste Solutions: Vitrification and Syngas Recovery from Sewage Sludgen
*Gilberto Petraconi1, Lincoln Silva1, Felipe Miranda1, Pedro Moreira Junior1, Antonio Ferreira2, Marcio Fujii2, Antonio Cruz1, Alexei Essiptchouk3 (1. Aeronautics Institute of Technology (Brazil), 2. São Paulo State Basic Sanitation Company (Brazil), 3. São Paulo State University (Brazil))
[05P-35]Study on Improving Metal-Organic Frameworks for CO2 and CH4 Absorption Using Atmospheric Pressure Plasma
Juncheol Kim1, Yejin Lee1*Joo Young Park1 (1. Korea Institute of Materials Science (Korea))
[05P-36]Status of a High Temperature Plasma System with a 3 TPD Processing Capacity for Solid Waste Gasification in KFE
*In Je Kang1, Dae Hyun Choi1,2, Ji Hun Kim1, Seungryul Yoo1, Chang Hyun Cho1,3, Yong-Sup Choi1 (1. Korea Institute of Fusion Energy (Korea), 2. Jeonbuk National University (Korea), 3. Chungnam National University (Korea))
[05P-37]Experimental Study on Post Plasma Methane Injection for Microwave Plasma Based Dry Reforming Process
*Chang Hyun Cho1,2, Ji Hun Kim1, Jong Keun Yang1, Yong-Sup Choi1, In Je Kang1 (1. Korea Institute of Fusion Energy (Korea), 2. Chungnam National University (Korea))
[05P-38]Room-Temperature Plasma Inducing Phosphorus Vacancy Cluster of NiP2 for Increasing Hydrogen Evolution Reaction
*Chun-Kai Yang1, Chien-Kuo Hsieh1 (1. Ming Chi University of Technology (Taiwan))
[05P-39]Structural Change of FePc/rGO Treated by Atmospheric Pressure Plasma
*Kanata Okamoto1, Takahiro Saida2, Masamichi Yoshimura3, Takayuki Ohta1 (1. Department of Electrical and Electronic Engineering, Meijo university (Japan), 2. Science and Technology, Meijo university (Japan), 3. Engineering, Toyota technological Institute (Japan))
[05P-40]Adhesive Bonding of SPFC980Y and Polypropylene/Polyethylene via Pre-Treatment by Atmospheric Pressure Non-Equilibrium Plasma Jet
*Kosuke Takenaka1, Ryosuke Koyari1, Shunsho Shigemori1, Giichiro Uchida 2, Yuichi Setsuhara1 (1. Osaka University (Japan), 2. Meijo University (Japan))
[05P-41]Numerical Calculation on the Feasibility of a Laser-Blast Rider for Atmospheric Drag Compensation Supersonically Orbiting in a Rarefied Atmosphere
*Sakira Uno1, Koki Ito1, Masayuki Takahashi1 (1. Tohoku University (Japan))
[05P-42]Development of Nanostructured EBCs Using Hybrid Alumina-Zirconia Precursors via Thermal Plasma Spray Technology
Homero Fonseca Maciel 1, Tiago Moreira Bastos1, Felipe Miranda1, *Gilberto Petraconi1 (1. Aeronautics Institute of Technology (Brazil))
[05P-43]Radiation-Resistant Self-Adaptive Nanostructured CNWs/CdZnTe Photodiode
*Yerassyl Yerlanuly1,2, Hryhorii P Parkhomenko1, Rakhymzhan Ye Zhumadilov2,3, Askhat N. Jumabekov 1, Viktor V. Brus1, Maratbek T. Gabdullin2,3 (1. Nazarbayev University (Kazakhstan), 2. Kazakh-British Technical University (Kazakhstan), 3. Institute of Applied Science and Information Technologies (Kazakhstan))
[05P-44]Optimization of Quantum Well Structures for The Development of GaN/InGaN Light-Emitting Diodes with High Luminous Efficacy
Yen-Sheng Lin1, *Wei-Cheng Huang1, Yu-Ting Su1 (1. I-Shou University (Taiwan))
[05P-45]Synthesis of Si-AlN Core-Shell Crystals by Al-Based Nano-Absorbers
*Sohee Kim1, Kyoung Hwa Kim2, Suhyun Mun1, Seonwoo Park1, Eunmin Kwon1, Myungjun Kim1, Min Yang1, Jae Hak Lee1,3, Hunsoo Jeon2, Hyoung Soo Ahn1 (1. National Korea Maritime & Ocean University (Korea), 2. Busan Techno Park (Korea), 3. LNBS Co.,Ltd (Korea))
[05P-46]New HVPE Sublimation Sandwich Method for the Formation of Si Layer on SiC Substrates
*Eunmin Kwon1, Kyoung Hwa Kim2, Seonwoo Park1, Suhyun Mun1, Sohee Kim1, Donghyeon Jeong1, Min Yang1, Jae Hak Lee1,3, Hunsoo Jeon2, Hyung Soo Ahn1 (1. National Korea Maritime & Ocean University (Korea), 2. Busan Techno Park (Korea), 3. LNBS Co., Ltd (Korea))
[05P-47]Modeling of Undoped GaN Using a 2D MOCVD Simulator
*Takahiro Gotow1, Tsutomu Sonoda1, Tokio Takahashi1, Hisashi Yamada1,2, Toshihide Ide1, Reiko Azumi1, Mitsuaki Shimizu1, Yosuke Tsunooka2, Shota Seki2, Kentaro Kutsukake2, Toru Ujihara1,2 (1. National Institute of Advanced Industrial Science and Technology (Japan), 2. Nagoya University (Japan))
[05P-49]Research on Gallium Oxide Heteroepitaxial Growth Technology and High-Power Electronic Devices
Tiecheng Luo1, Bindi Cai1, Deke Zeng1, Zimin Chen1, Xing Lu1, *Gang Wang1 (1. Sun Yat-sen University (China))
[05P-50]Growth of GaN on Graphene/SiO2/Si (100) by Radical Enhanced Metal Organic Chemical Vapor Deposition.
*Swathy Jayaprasad1, Arun Kumar Dhasiyan2, Naohiro Shimizu2, Osamu Oda2, Hiromasa Tanaka2, Masaru Hori2 (1. Department of Electronic Engineering, Graduate School Student, Nagoya University (Japan), 2. Center for low temperature plasma science, Nagoya University (Japan))
[05P-51]Effect of Deposition Temperature on Deposition of Gallium Oxide Films Using Hot-Wall Type Mist CVD
*Tomoki Iwata1, Ohta Takayuki1 (1. Department of Electrical and Electronic Engineering, Meijo University (Japan))
[05P-52]Enhancing Optical Device Performance with Dielectric/Metallic Conductive Distributed Bragg Reflectors Based on ITO and Silver
Wai Yuen FU1, *Hoi Wai Choi1 (1. University of Hong Kong (Hong Kong))
[05P-53]AlGaN/GaN with One Channel-Based HEMT and MSM Detectors on SiC
*Kai Wei Chien1, Chia Feng Lin1 (1. National Chung Hsing University (Taiwan))
[05P-54]Research on the Light Extraction Efficiency of AlGaN through Electrochemical Etching
*Shun Ming Yu1, Chia Feng Lin1 (1. National Chung Hsing University, Taiwan (Taiwan))
[05P-55]Cavity-Mode Analysis of Blue InGaN RC-LEDs with Top Dielectric Reflectors
*Chiung Hua Wang1, Chia Feng Lin1 (1. National Chung Hsing University (Taiwan))
[05P-56]Blue InGaN Resonant-Cavity Light-Emitting Diodes with Top Dielectric Deflectors at Different Emission Areas
*Chia-Yi CHEN1, Chia-Feng Lin1 (1. National Chung Hsing University (Taiwan))
[05P-57]InGaN-Based Red Resonant Cavity Light Emitting Diodes with Embedded Bragg Reflectors on Si Substrates
*Yi-Sin Cheng1, Chia-Feng Lin1 (1. National Chung Hsing University, Taiwan (Taiwan))
[05P-58]Enhanced UVC Photodetectors via Surface-Passivated Wide-Bandgap Zirconium-Oxo Clusters in Asymmetrical MSM Configurations
*Maro Kim1, Chung Wung Bark 1 (1. Gachon University (Korea))
[05P-60]Reduction of Positive Fixed Charges At Al2O3/P-GaN Interface by Pre-Annnealing Using AlON Cap Layer
*Masanobu Takahashi1, Yining Jiao1, Masamichi Akazawa1 (1. Hokkaido University (Japan))
[05P-61]A Relation Between Yellow Band and Defect States of GaN Epilayers during Gamma-Ray Irradiation
Kyoung Su Lee1, Dong-Seok KIM\im2, *Eun Kyu Kim1 (1. Hanyang University (Korea), 2. Korea Atomic Energy Res. Inst. (Korea))
[05P-62]Growth of High-Crystal Quality Epitaxial AlN Films on WS2 via Van der Waals Epitaxy
*Wei-Chun Chen1,3, Mu-Huan Lee2, Wei-Lin Wang1, Hung-Pin Chen1, Yu-Wei Lin1, Shih-Feng Tseng2, Fong-Zhi Chen1 (1. Taiwan Instrument Research Institute, National Applied Research Laboratories (Taiwan), 2. Department of Mechanical Engineering, National Taipei University of Technology (Taiwan), 3. Dennovation Frontier Institute of Research for Science and Technology, National Taipei University of Technology (Taiwan))
[05P-63]Observation of Point Defect and Carrier Lifetime Distributions in Ion Implanted SiC PiN Diodes
*Tong Li1, Hitoshi Sakane2, Shunta Harada3, Masashi Kato1 (1. Nagoya Inst. of Tech. (Japan), 2. SHI-ATEX Co. Ltd. (Japan), 3. Nagoya Univ. (Japan))
[05P-64]An Investigation of HfxAl1-xO-Based Gate Dielectric Used in Metal-oxide-semiconductor High Electron Mobility Transistor
*Shi-Cheng Huang1, Liang-Jun Wang2, Chun-Yu Lin1, Zi-Hao Wang1, Shyh-Jer Huang3,4, Rong-Ming Ko1, Yan-Kuin Su1,2,3 (1. Academy of Innovative Semiconductor and Sustainable Manufacturing, National Cheng Kung University (Taiwan), 2. Institute of Microelectronics, Department of Electrical Engineering, National Cheng Kung University (Taiwan), 3. Department of Electrical Engineering and Green Energy Technology Research Center, Kun Shan University (Taiwan), 4. Department of Electro-Optical Engineering, National Formosa University (Taiwan))
[05P-65]Application of ALD-Derived Al2O3/HfxAl1-xO Bilayer as Gate Dielectric in AlGaN/GaN High Electron Mobility Transistor
*Chun Yu Lin1, Wei-Xuan Hou2, Shi-Cheng Huang1, Zi-Hao Wang1, Shyh-Jer Huang3,4, Rong-Ming Ko1, Yan-Kuin Su1,2,3 (1. Academy of Innovative Semiconductor and Sustainable Manufacturing, National Cheng Kung University (Taiwan), 2. Institute of Microelectronics, Department of Electrical Engineering, National Cheng Kung University (Taiwan), 3. Department of Electrical Engineering and Green Energy Technology Research Center, Kun Shan University (Taiwan), 4. Department of Electro-Optical Engineering, National Formosa University (Taiwan))
[05P-66]Multimodal Defect Analysis for Crystalline Materials Using Perspective Transformation
*Kosei Takahashi1, Kota Tsujimori2, Yasutaka Matsubara1, Keisuke Seo1, Michio Kawase1, Seiya Mizutani3, Yuya Mizutani3, Seiji Mizutani3, Kenta Murayama3, Shunta Harada1,2 (1. Nagoya University (Japan), 2. SSR Corporation (Japan), 3. Mipox Corporation (Japan))
[05P-67]Ab Initio Study on the Effects of N Atoms on Band Alignments at 4H-SiC/SiO2 Interface
*Naoto Ise1, Toru Akiyama1, Tetsuo Hatakeyama2, Kenji Shiraishi3, Takashi Nakayama4 (1. Mie-University (Japan), 2. Toyama Prefectural-University (Japan), 3. Nagoya-University (Japan), 4. Chiba-University (Japan))
[05P-68]N-polar Al0.2Ga0.8N-Channel HFETs Fabricated on Single-Crystal AlN Substrate
*Hitoshi Susuki1, Yoshinobu Kometani1, Takashi Egawa1, Makoto Miyoshi1 (1. Nagoya Institute of Technology (Japan))
[05P-69]Optimizing Photoelectrochemical Properties of Bi2O3-ZnO Composite Nanosheets through Crystal Defect Engineering
*Po-Hsiang Wang1, Yuan-Chang Liang1 (1. Department Of Optoelectronics And Materials Technology, National Taiwan Ocean University (Taiwan))
[05P-70]Metal-Organic Frameworks Composited with Nano-Inorganic Materials for Photo-/Elctro-Catalytic Carbon Dioxide Reduction
*Wei-Yin Sun1 (1. Nanjing University (China))
[05P-71]Impact of Deposition Rate on Spatial Homogeneity of High-Sn-Content Ge1−XSnX (X~0.25) Epitaxial Layers in Sputtering Method
*Shigehisa Shibayama1, Taichi Kabeya1, Mitsuo Sakashita1, Masashi Kurosawa1, Osamu Nakatsuka1,2 (1. Nagoya University (Japan), 2. IMaSS, Nagoya University (Japan))
[05P-75]Machining and Electrochemical Corrosion of Inconel 718 Alloy
*Yen-Shen Liu1, Yu-Sheng Lu1,2, Shi-Lun Kuo1, Ruei-Jhe Li1, Te- Hua Fang1 (1. National Kaohsiung University of Science and Technology (Taiwan), 2. Tohoku University (Japan))
[05P-76]Counterpart-Dependent Friction and Wear of Hydrogenated Tetrahedral Amorphous Carbon under Ultra-High Vacuum
*Jae-Il Kim1, Ji-Woong Jang1, Young-Jun Jang1 (1. Korea Institute of Materials Science (Korea))
[05P-77]Relationship Between Flow Field and 2D WS2 Synthesis on 30o Tilted Substrate
*Wei-Lin Wang1, Hua-Lin Chen1, Kun-An Chiu1, Wei-Chun Chen1, Hung-Pin Chen1, Yu-Wei Lin1, Fong-Zhi Chen1 (1. Taiwan Instrument Research Institute, National Applied Research Laboratories (Taiwan))
[05P-78]Plasma-Engineered Metal-Organic Single-Atom Nanocatalysts with Extreme Catalytic Reduction
*Chia-Hung Lin1, Wei-Hung Chiang1 (1. National Taiwan University of Science and Technology (Taiwan))
[05P-79]Theoretical Design of High Density H2-Storage Devices
*Hiroto Tachikawa1, Tetsuji Iyama1, Hiroshi Kawabata1 (1. Hokkaido University (Japan))
[05P-80]Comparison of Different Substrates for Carbon Nanowalls Growth by CCP-PECVD Method
*Bauyrzhan Zhumadilov1,2, Rakhymzhan Zhumadilov1,2, Renata Nemkayeva1,2, Aiymkul Markhabayeva1,2, Yerassyl Yerlanuly1,3, Maratbek Gabdullin1,2 (1. Kazakh British Technical University (Kazakhstan), 2. al-Farabi Kazakh National University (Kazakhstan), 3. Nazarbayev University (Kazakhstan))
[05P-81]Microplasma-Enabled One-Step Synthesis of Composition-Controlled Iron - Gold Nanoparticles for Environmental Pollutants Degradation
*Chiao-Ting Cho1, Wei-Hung Chiang1 (1. National Taiwan University of Science and Technology (Taiwan))
[05P-82]Investigate of Electrical and Mechanical Properties by EG and DMSO Doping with SDS Modified PEDOT:PSS Free Standing Films
*MD. Abdur Rahman1, Shafayat Hossain1, Naoki Kishi1 (1. Nagoya Institute of Technology (Japan))
[05P-83]Iron-Modified BiVO4 Photoanodes for Photoelectrochemical Applications
*Yen-Yu Lin1, Che-Yu Kuo, Ying-Chih Pu (1. National University of Tainan (Taiwan))
[05P-84]Fabrication of Large-Area and Uniform Flexible Membranes for Efficient Oil-Water Separation via Atmospheric Pressure Plasma Chemical Vapor Deposition
*Hayoung Choi1, Jongwoon Kim1, Seyoun Moon1 (1. Jeonbuk National University (Korea))
[05P-85]A Biowaste-Based Electro-Catalyst for Efficient Oxygen-Reduction-Reaction (ORR): A Metal-Free Approach
*Mohammed Jalalah Jalalah1, Arpan Kumar Nayak2 (1. Department of Electrical Engineering, Najran University (Saudi Arabia), 2. Department of Energy Engineering, Konkuk University (Korea))
[05P-87]Enhanced Hydrogen Peroxide Detection Using Nitrogen-Doped Carbon Nanowalls
*Rakhymzhan Zhumadilov1,2,3, Yerassyl Yerlanuly1,3, Renata Nemkayeva1,2, Hiroki Kondo5, Tlekkabul Ramazanov2, Maratbek Gabdullin, Masaru Hori4 (1. Kazakh-British Technical University (Kazakhstan), 2. Al-Farabi Kazakh National University (Kazakhstan), 3. Institute of Applied Science and Information Technologies (Kazakhstan), 4. Center for Low-temperature Plasma Sciences, Nagoya University (Japan), 5. Kyushu University (Japan))
[04P-61]Evaluation of the Plasma-Induced Short-Lived Reactive Oxygen Species
Yamato Torii1, Hirofumi Kurita2, Tatsuru Shirafuji1, *Jun-Seok OH1 (1. Osaka Metropolitan Univ. (Japan), 2. Toyohashi University of Technology (Japan))
[04P-69]Investition of Absorption Spectra of the Indigo Carmine Solutions
*Yuki Jonen1, Jun-Seok OH1,2, Yamato Torii2, Tatsuru Shirafuji1,2 (1. Osaka City University (Japan), 2. Osaka Metropolitan Univ. (Japan))