Session Details
Poster Session-2
Wed. Mar 4, 2026 4:45 PM - 6:15 PM JST
Wed. Mar 4, 2026 7:45 AM - 9:15 AM UTC
Wed. Mar 4, 2026 7:45 AM - 9:15 AM UTC
Entrance Hall(Entrance Hall)
[04P-02]Plasma-Enhanced Atomic Layer Deposition of AlN/TiN Nano-laminate as a Mechanically Robust Electronic Material
Guan-Rong Lin1, Jhe-Wei Yeh1, Chao-Yung Chen1, *Pak-Man Yiu1,2 (1. Department of Materials Engineering, Ming Chi University of Technology (Taiwan), 2. Center for Plasma and Thin Film Technologies, Ming Chi University of Technology (Taiwan))
[04P-03]Proposal of simple method to evaluate stability of thin film growth
*Satoru Kaneko1,2, Tkashi Tokumasu3, Masahito Kurouchi1, Manabu Yasui1, Daishi Shiojiri1, Masahiro Yoshimura1,2, Ruei Sung Yu4, Musa Multu Can5, Sumanta Kumar Shahoo6, Mariana Ionita7, Sarunas Meskinis8, Akifumi Matsuda2 (1. KISTEC (Japan), 2. Science of Tokyo (Japan), 3. Tohoku University (Japan), 4. National Chin-Yi University of Technology (Taiwan), 5. Istanbul, Istanbul University (Turkey), 6. Einstein Academy of Technology and Management, India (India), 7. University of Science and Technology Politehnica of Bucharest (Romania), 8. Kunasu University of Technology (Lithuania))
[04P-04]Engineering Carbon-Based Composite Coatings with Plasma-Polymerized Dual-Functional Interfaces for Biomedical Anti-Fouling Applications
*Jui-Ting Hsiao1 (1. National Taiwan University of Science and Technology, Taiwan (Taiwan))
[04P-05]Novel high-temperature wear-resistant ternary C–Cr–Zr coatings deposited by using reactive high-power impulse magnetron sputtering codeposition
Jing-Tang Chang1, *Yu-Tang Yin1, Chin-Chiuan Kuo1 (1. National Formosa University (Taiwan))
[04P-06]From Elastic to Stretchable Thin Film Strain Gauge Realized by HiPIMS
Yu-Wen chen1, *Ying Hung Chen1, Ping-Yen Hsieh1, Ju-Liang He1 (1. Feng chia university (Taiwan))
[04P-07]Plasma etching resistance of gas flow sputter prepared SiC coating under cryogenic CF4/H2 plasma
*Ping-Yen Hsieh1, Chia-Ying Liou1, Shih-Nan Hsiao2, Ying-Hung Chen1, Masaru Hori2, Ju-Liang He1 (1. Feng Chia University (Taiwan), 2. Nagoya University (Japan))
[04P-08]Structural and mechanical properties of SiCN hard coatings deposited by electron cyclotron resonance (ECR) plasma sputtering
*Yusuke Hashimoto1, Yuki Ooba1, Yuta Hanamura1, Riku Watanabe1, Jose Andres Hernandez Gaitan1, Yoshifumi Aoi1, Masateru Nose2 (1. Ryukoku university (Japan), 2. University of Toyama (Japan))
[04P-10]Corrosion Resistance Evaluation of High Entropy Alloy Thin Films in Sulfuric Acid Environments
Bih-Show Lou1, *Jyh-Wei Lee2 (1. Chang Gung University (Taiwan), 2. Ming Chi University of Technology (Taiwan))
[04P-11]Effects of Tetramethylsilane Gas Flow Rate on Si-Containing DLC Films Fabricated Using Gas-Injected Pulsed Plasma CVD Method
*Seigo Makida1, Toru Harigai2, Taketo Nagai1, Hiroyuki Kosaka2,3 (1. Graduate School of Natural Science and Technology, Gifu University (Japan), 2. Center for Applied Research of Plasma, Faculty of Engineering, Gifu University (Japan), 3. Department of Mechanical Engineering, Faculty of Engineering, Gifu University (Japan))
[04P-12]Deposition of Nano-Structured MoSX Films by Sputtering for Li-ion Batteries anode
*Koki Sakaguchi1, Yoshiyuki Hasegawa1, Giichiro Uchida1 (1. Meijo University (Japan))
[04P-13]Effect of carbon-coating on Si nanowire film for Li-ion battery performance
*Takashi Asai1, Tatsuo Ueda1, Leo Yokoyama1, Koki Sakaguchi1, Giichiro Uchida1 (1. Meijo university (Japan))
[04P-14]Structure control of SiSn nanowires by changing substrate temperature for Li-ion battery anode
*Reo Yokoyama1, Ryousuke Yamazaki1, Takashi Asai1, Koki Sakaguchi1, Giichiro Uchida1 (1. Meijo University (Japan))
[04P-15]Effect of radical injection on synthesis of n–v centers in nitrogen-doped diamond grown by plasma enhanced chemical vapor deposition
*Yuto Yonehara1, Mineo Hiramatsu1, Keigo Takeda1 (1. Meijo University (Japan))
[04P-16]Effect of substrate bias and temperature on the structure of amorphous carbon thin films deposited by electron cyclotron resonance plasma sputtering
*Yukito Tabata1, Shogo Nagashima1, Jose Andres Hernandez Gaitan1, Yoshifumi Aoi1 (1. Ryukoku University (Japan))
[04P-17]Film-Thickness Distribution of DLC Prepared Using Gas-Injected Pulsed Plasma CVD Method with a Slit-Type Gas Nozzle
*Toru Harigai1, Taketo Nagai1, Seigo Makida1, Hiroyuki Kousaka1 (1. Gifu University (Japan))
[04P-18]Structural characterization of amorphous carbon thin films deposited by pulsed laser deposition: Effects of laser energy and substrate temperature
*Shogo Nagashima1, Jose A. Hernandez Gaitan1, Yoshifumi Aoi1 (1. Ryukoku University (Japan))
[04P-19]Ion Energy Index as a Determinant of Mass Density in a-C:H Films Deposited by Plasma CVD
*Kazunori Koga1, Shunpei Ohara1, Shinjiro Ono1, Manato Eri1, Takamasa Okumura1, Pankaj Attri1, Kunihiro Kamataki1, Naho Itagaki1, Masaharu Shiratani1 (1. Kyushu University (Japan))
[04P-21]Effect of Pulse Voltage on Mico-arc and Coating in Plasma Electrolytic Oxidation of Titanium Alloy
Takuma Hioka1, *Toshiaki Yasui1 (1. Toyohashi University of Technology (Japan))
[04P-22]Microstructural Evolution of Nd-Doped CoCrFeMnNi High Entropy Alloy Thin Films
*Chia-Lin Li1 (1. Ming Chi University of Technology (Taiwan))
[04P-23]Effect of Tungsten Content on the Mechanical Properties of Co-sputtered (TiZrHfW)Nx Thin Films
Yung-I Chen1, Hsiu-Ming Chang1, *Li-Chun Chang2 (1. National Taiwan Ocean University (Taiwan), 2. Ming Chi University of Technology (Taiwan))
[04P-25]Preparation of Amorphous Carbon Thin Films with Long Stability by Plasma Enhanced Chemical Vapor Deposition (PECVD)
Shang-Lin Hsieh1, *Meng-Jiy Wang1 (1. National Taiwan University of Science and Technology (Taiwan))
[04P-26]Adhesion and Abrasion Resistance of DC-Sputtered Titanium Nitride Thin Films on AISI 316 Stainless Steel
*Shanne Erwynn M Maurin1, Magdaleno R Vasquez1 (1. University of the Philippines Diliman (Philippines))
[04P-27]Formation of In-based oxide thin film transistors using plasma-assisted reactive sputtering processes
*Kosuke Takenaka1, Haruya Naganawa1, Daiki Nitta1, Takayuki Ohta2, Yuichi Setsuhara1 (1. The University of Osaka (Japan), 2. Meijo University (Japan))
[04P-28]Suppression of Fe–Si Interdiffusion and SiC Formation on Fe Substrates by Ammonia Pretreatment in Hot-Wall CVD Using Vinylsilane
*Atsuya Tamada1, Naoto Ohshima1, Yuki Tsuchiizu2, Kenichi Uehara3, Satoru Kaneko4, Shigeo Yasuhara3, Wakana Takeuchi1 (1. Aichi Institute of Technology (Japan), 2. Tohoku University (Japan), 3. Japan Advanced Chemicals Ltd. (Japan), 4. Kanagawa Institute of Industrial Science and Technology (Japan))
[04P-29]The studies of structures, microstructures, oxidation states of rare earth garnet [Eu3Fe5O12/Tb3Fe5O12]/Gd3Ga5O12(111) thin films
*Ko-Wei Lin1, Guan-Hua Lu1, Chi Wah Leung2 (1. National Chung Hsing University (Taiwan), 2. The Hong Kong Polytechnic University (Hong Kong))
[04P-31]Control of plasma etching rate of thin SiO2 by backside materials
*Toshitaka Kubo1, Chikatsu Iwase2, Ryo Kanou2, Shouta Shiba2, Tetsuo Shimizu2 (1. National Institute of Advanced Industrial Science and Technology (AIST) (Japan), 2. Sanyu Co., Ltd. (Japan))
[04P-32]Investigation of Lycopene Removal from Polypropylene (PP) Containers using Atmospheric Pressure Plasma Jet (APPJ) Treatment
*Ashley Llanes Atienza1, Keith Nealson M. Penado1, Christian Lorenz S. Mahinay1, Jose Mario A. Diaz1 (1. Ateneo de Manila University (Philippines))
[04P-33]Influence of Radical Behavior on Si and Si0.7Ge0.3 Surface Reactions with CF4/H2 Plasma
*Ibuki Saburi1, Yuki Imai1, Takayoshi Tsutsumi1, Kenji Ishikawa1, Yuji Yamamoto1,2, Wei-Chen Wen2, Katsunori Makihara1,2 (1. Nagoya University (Japan), 2. IHP–Leibniz-Institut für Innovative Mikroelektronik (Germany))
[04P-34]Plasma Reactive Ion Ething of SiO2 and Si3N4 using Low Electron Temperature
*Yeonjae Hwang1, Hyeonwoo Lee1, Woncheol Shin1, Heeyeop Chae1 (1. Sungkyunkwan University (SKKU) (Korea))
[04P-35]Environmentally Sustainable SiO2 Etching with Heptafluoropropyl and Heptafluoroisopropyl Methyl Ethers as PFC Alternatives
*Minuk Kim1, Chang-Koo Kim1 (1. Ajou University (Korea))
[04P-36]Hexafluoroisopropanol and Pentafluoropropanol as Environmentally Friendly Alternatives for Plasma Etching of SiO2
*Junyoung Kim1, Chang-Koo Kim1 (1. Ajou University (Korea))
[04P-37]SiO2 Etching in C3HF5 and C3F6 Plasmas as Low-GWP Alternatives to High-GWP Fluorocarbons
*Inkyoung Cho1, Sanghyun You1, Chang-Koo Kim1 (1. Ajou University (Korea))
[04P-38]Etching Performance and Mechanism of Low Global Warming Potential C3F6 and C4F6 Gases for SiO2 Etching
*Chaewon Song1, Chang-Koo Kim1 (1. Ajou University (Korea))
[04P-39]Environmentally Benign Plasma Etching of SiO2 and Si3N4 Using Hexafluoropropylene Oxide
*Sieun Baek1, Chang-Koo Kim1 (1. Ajou University (Korea))
[04P-40]Reduction of On-Resistance in InAlN/GaN HEMTs Through Source and Drain Patterning Etching
Chiao-Yang Cheng1, Shi-Cheng Huang1, Min-Han Li1, Chun-Yu Lin1, Shyh-Jer Huang2, Yi-Chi Lee3, Yan-Kuin Su1, *Zi-Hao Wang1 (1. National Cheng Kung University (Taiwan), 2. National Formosa University (Taiwan), 3. Industrial Technology Research Institute (Taiwan))
[04P-41]Impact of Process Conditions on Diamond Trench Profiles
*Takuto Oya1, Nguyen Trung Tran2, Kenichi Inoue2, Takayoshi Tsutsumi2, Kenji Ishikawa2 (1. Nagoya University (Japan), 2. Center for Low-temperature Plasma Sciences, Nagoya University (Japan))
[04P-44]Synthesis of N-doped Carbon Dots by plasma-in-liquid process
*Rintaro Takahata1, Hitoshi Muneoka1, Yusuke Yasuda1, Tsuyohito Ito1, Kazuo Terashima1 (1. The University of Tokyo (Japan))
[04P-45]Charge Decay Characteristics of Multiple-Stacked Si Nanodots
*Haruto Kubota1, Jongeun Baek1, Yuki Imai1, Noriyuki Taoka2, Katsunori Makihara1 (1. Nagoya University (Japan), 2. Aichi Institute of Technology (Japan))
[04P-46]Heterogeneous Structure of Carbon Nanotubes directly synthesized on Ni(OH)2 as an Efficient Bifunctional Electrocatalyst for Hydrogen and Oxygen Evolution Reactions
*Jia An Chou1, Chien Kuo Hsieh1 (1. Ming Chi University of Technology (Taiwan))
[04P-47]Heterostructured CoS-MoS2 Nanocoral Array on Graphene-Decorated Nickel Foam for High-Performance Electrochemical Supercapacitors
*Pei Syuan Lee1, Chien Kuo Hsieh (1. Ming Chi University of Technology (Taiwan))
[04P-48]Key species in plasma to functionalize isocyanate groups on multi-walled carbon nanotubes
*Kakuto Watanabe1, Keiji Nakamura1, Daisuke Ogawa1 (1. Chubu Univ. (Japan))
[04P-49]Formation of polymer nanofibers with increased iron-filled carbon nanotube concentration
*Kota Suzuki1, Yuji Fujiwara1, Hideki Sato1 (1. Mie University (Japan))
[04P-50]MoS2/p-Si Emitter for Photon Enhanced Thermionic Energy Conveter
*Rikiya Matsushima1, Akihisa Ogino1 (1. Shizuoka Univ. (Japan))
[04P-51]Nanoindentation Simulation of Carbon-Based Materials: Mechanical Response and Deformation Mechanism
*Chia-Wei Huang1, Tang-Yu Lai2, Te-Hua Fang1 (1. National Kaohsiung University of Science and Technology (Taiwan), 2. R.O.C. Air Force Academy (Taiwan))
[04P-52]Synthesis of Highly Aligned WS2 Flakes on Miscut c-plane Sapphire Substrates
*Kun-An Chiu1, Yu-Ching Liao2, Hua-Lin Chen1, Wei-Chun Chen1, Wei-Lin Wang1, Hung-Pin Chen1, Yu-Wei Lin1, Fong-Zhi Chen1 (1. National Center for Instrumentation Research, National Institutes of Applied Research (Taiwan), 2. Department of Material Science and Engineering, National Chung Hsing University (Taiwan))
[04P-54]Thickness Dependence of Electromagnetic Wave Shielding Properties in Carbon Nanotube-Polymer Composites
*Seiya Suzuki1, Naoki Kishi1 (1. Nagoya Institute of Technology (Japan))
[04P-55]NiFe-LDH Anode Catalysts on Different Porous Transport Layers for Anion Exchange Membrane Water Electrolysis
*Chia-Wei Su1, Shuo-En Yu2, Li-Da Chiu2, I-Chun Cheng3, Jian-Zhang Chen1,2,4 (1. Institute of Applied Mechanics, National Taiwan University (Taiwan), 2. Graduate School of Advanced Technology, National Taiwan University (Taiwan), 3. Institute of Photonics and Optoelectronics and Department of Electrical Engineering, National Taiwan University (Taiwan), 4. Advanced Research Center for Green Materials Science and Technology, National Taiwan University (Taiwan))
[04P-56]Hydrothermal Growth of NiMoO4 Nanowires on Carbon, Nickel, and Stainless-Steel Fiber Papers for Efficient Anion Exchange Membrane Water Electrolysis
*Li-Da Chiu1, Shuo-En Yu1, Chen-Chen Chueh1, I-Chih Ni4, Chih-I Wu1,4, I-Chun Cheng4, Jian-Zhang Chen1,2,3 (1. Graduate School of Advanced Technology, National Taiwan University (Taiwan), 2. Institute of Applied Mechanics, National Taiwan University (Taiwan), 3. Advanced Research Center for Green Materials Science and Technology, National Taiwan University (Taiwan), 4. Graduate Institute of Photonics and Optoelectronics and Department of Electrical Engineering, National Taiwan University (Taiwan))
[04P-57]NiFeCo-MOF Electrocatalysts on Stainless Steel and Carbon Fiber Paper Porous Transport Layers for Anion Exchange Membrane Water Electrolysis: A Comparative Study
*Ruei-Yu Hsu1, Shuo-En Yu1, Zhi-Hui Pu2, I-Chun Cheng4, Jian-Zhang Chen1,2,3 (1. Graduate Institute of Nano Science and Engineering, National Taiwan University (Taiwan), 2. Institute of Applied Mechanics, National Taiwan University (Taiwan), 3. Advanced Research Center for Green Materials Science and Technology, National Taiwan University (Taiwan), 4. Graduate Institute of Photonics and Optoelectronics and Department of Electrical Engineering, National Taiwan University (Taiwan))
[04P-58]Formation of PEDOT:PSS Free-Standing Films Using Organic Solvents
*Haruto Suzuki1, Naoki Kishi1 (1. Nagoya Institute of Technology (Japan))
[04P-59]Sputtered Electrocatalysts for the Hydrogen Evolution Reaction in Alkaline Water Electrolysis and Anion Exchange Membrane Water Electrolysis: An Interpretable Machine Learning Study
*Jo-Han Huang1, Yung-Liang Tung2, Chia-Ching Chou1, Jian-Zhang Chen1,3,4 (1. Institute of Applied Mechanics, National Taiwan University (Taiwan), 2. Green Energy and Environment Research Laboratories, Industrial Technology Research Institute, Chutung, Hsinchu (Taiwan), 3. Graduate School of Advanced Technology, National Taiwan University (Taiwan), 4. Advanced Research Center for Green Materials Science and Technology, National Taiwan University (Taiwan))
[04P-60]Optimization of annealing duration for electrodeposited Zn–Mn composite electrodes in gel-electrolyte supercapacitors
*Yi Der Huang1, I Chun Cheng2, Jian Zhang Chen1,3,4 (1. Institute of Applied Mechanics, National Taiwan University (Taiwan), 2. Graduate Institute of Photonics and Optoelectronics and Department of Electrical Engineering, National Taiwan University (Taiwan), 3. Graduate School of Advanced Technology, National Taiwan University (Taiwan), 4. Advanced Research Center for Green Materials Science and Technology, National Taiwan University (Taiwan))
[04P-61]Improve diesel engine combustion efficiency and reduce exhaust pollution using molecular synchronous resonance technology
*Chun-Yu Chen1, Tang-Yu Lai2, Chih-Min Hsieh1, Jia-Yu Chen1, Tsun-Lirng Yang1, Kuo-Chin Hsu1 (1. National Kaohsiung University of Science and Technology, Taiwan (Taiwan), 2. R.O.C. Air Force Academy (Taiwan))
[04P-62]Removal of C4F8 from gas streams via combined plasma catalysis: Effects of H2O(g)
*Amir Machmud1, Moo Been Chang1 (1. National Central University (Taiwan))
[04P-63]The NC-CFET Composed Of A N-type FDGeOI-NCFET And A P-type Bottom-Gate-NCFET Transistor
*Sin Wei Chen1, Cheng Chun Tan2, Shin Pin Tseng1, Yu Hsien Lin1 (1. Department of Electronic Engineering, National United University (Taiwan), 2. National Yang Ming Chiao Tung University (Taiwan))
[04P-64]Impact of post-deposition nitrogen radical treatment on degradation of high-k gate dielectrics induced by constant current stress
*Honoka Kido1, Mizuki Yano1, Hiroki Kondo1 (1. Kyushu Univ. ISEE (Japan))
[04P-65]Effects of nitrogen radical post-treatment after metal gate deposition on chemical bonding structures of high-k/metal gate gate stacks
*Mizuki Yano1, Honoka Kido1, Hiroki Kondo1 (1. Kyushu University (Japan))
[04P-66]Production of Carbon Monoxide by a Plasma Jet: Experimental and Modeling Approaches for Plasma Medicine
*Ippei Saito1, Tomoyuki Murakami1, Claire Douat2 (1. Seikei University (Japan), 2. GREMI, UMR7344, CNRS/Université d'Orléans (France))
[04P-67]Antibacterial Applications of Electrospun Polylactic Acid Nanofibers Combined with Silver Nanoparticles Deposited by Magnetron Sputtering
Ming Hua Shiao1, Wen-Sen Fan2, Cheng-Jui Wang2, Yi-Hsien Lin3, Sin-Liang Ou2, *Hung-Pin Chen1, Wei-Chun Chen1 (1. National Center for Instrumentation Research, National Institutes of Applied Research (Taiwan), 2. Department of Biomedical Engineering, Da-Yeh University (Taiwan), 3. Department of Electronic Engineering, National Yunlin University of Science and Technology (Taiwan))
[04P-68]Effects of Cold Atmospheric Plasma on the growth of onion seeds
*Kosuke Iwata1, Takashi Kondo2, Eiko Nakata1 (1. International University of Health and Welfare (Japan), 2. Nagoya University (Japan))
[04P-69]Surface-modified zeolite as a potential carrier for the pH-responsive release of diclofenac and omeprazole
*Samantha Faith Javier De Lusong1, Kathrina Lois Taaca1, Edgie Natividad1 (1. Department of Mining, Metallurgical, and Materials Engineering (DMMME), University of the Philippines Diliman (Philippines))
[04P-70]Growth control of murine myoblast cell C2C12 by non-thermal atmospheric pressure plasma exposure
*Miho Tsuji1, Shinya Kumagai1 (1. Meijo University (Japan))
[04P-71]Dependences of solvents on N’-formylkynurenine conversion efficiency in oxygen radical-irradiated tryptophan solutions
*Takashi Eto1, Daiji Kitagawa1, Hiromasa Tanaka2, Kenji Ishikawa2, Masaru Hori2, Masafumi Ito1 (1. Meijo university (Japan), 2. Nagoya university (Japan))
[04P-72]Investigation of Gas Flow Conditions for Improving Cell Introduction Rate in Metal Cytometer
*Soma Yamada1, Yuwa Ando1, Kai Fukuchi1, Yuya Shimizu1, Akane Yaida1, Yuki Maemoto2, Motohide Aoki2, Tomonari Umemura2, Akitoshi Okino1 (1. Institute of Science Tokyo (Japan), 2. Tokyo University of Pharmacy and Life Sciences (Japan))
[04P-73]Cold atmospheric plasma-activated chitosan-based hydrogels for cancer treatment
*Camelia Miron1, Luminita Marin2,3, Masato Ikeda3, Ryo Wakatsukasa1, Taishi Yamakawa1, Kenichi Inoue1, Shinya Toyokuni4, Kenji Ishikawa1, Masaru Hori1, Hiromasa Tanaka1 (1. Center for Low-temperature Plasma Sciences (Japan), 2. Institute of Macromolecular Chemistry "Petru Poni" (Romania), 3. Department of Chemistry and Biotechnology, Gifu University (Japan), 4. Department of Pathology and Biological Responses, Nagoya University (Japan))
[04P-74]Effects of direct irradiation on skin using a plasma jet
*Maho Yamada1, Kae Nakamura2,3, Hiroaki Kajiyama2,3, Shinya Toyokuni2,4, Masaaki Mizuno2,5, Kenji Ishikawa1,2, Masaru Hori2, Hiromasa Tanaka1,2 (1. Department of Electronics, Graduate School of Engineering, Nagoya University (Japan), 2. Center for Low-temperature Plasma Sciences, Nagoya University (Japan), 3. Department of Obstetrics and Gynecology, Nagoya University Graduate School of Medicine (Japan), 4. Department of Pathology and Biological Responses, Nagoya University Graduate School of Medicine (Japan), 5. Center for Advanced Medicine and Clinical Research, Nagoya University Hospital (Japan))
[04P-75]Effects of Neutral Radicals on the Selective Inactivation of Breast Cancer Cells by Plasma-Activated Lactate Ringer’s Solution
*Naohiro Noro1, Kodai Yamamoto1, Hiromasa Tanaka2, Masaru Hori2, Masafumi Ito1 (1. Meijo University (Japan), 2. Nagoya University (Japan))
[04P-76]Plasma-induced Protein Modification and Antibody–Antigen Interactions
*Shaoyun Ge1, Hiroko Mizuno1, Kenji Ishikawa1, Yuji Kamatari2, Tomohiro Otsuka3, Hirokazu Hara3, Masafumi Ito4, Masaru Hori1, Hiromasa Tanaka1 (1. Nagoya University (Japan), 2. Gifu University (Japan), 3. Gifu Pharmaceutical University (Japan), 4. Meijo University (Japan))
[04P-78]Impedance-Based Prediction of Efficacy in Pulsed Voltage Wastewater Treatment
Takahisa Ueno1, *Shinichiro Abe1, Takashi Furukawa2, Yuki Hoshiko2, Kazunari Sei2 (1. National Institute of Technology, Oita College (Japan), 2. Kitasato University (Japan))
[04P-79]Enhanced Sterilization Efficiency of the PEF Method Using Antibacterial Resin
*Hayato Shigematsu1, Takashi Furukawa2, Kazunari Sei2, Yuki Hoshiko2, Takahisa Ueno1 (1. National Institute of Technology, Oita College (Japan), 2. Kitasato University (Japan))
[04P-80]Characterization of a Conductive Yarn System for High-Voltage Pest Control
*Eiji Furusho1, Takashi Furukawa2, Takeshi Hatta2, Ueno Takahisa1 (1. National Institute of Technology, Oita College (Japan), 2. Kitasato University, Japan (Japan))
[04P-81]Bactericidal effect of oxygen radical-irradiated Brij 35 solution on E. coli
*Soya Goto1, Daichi Michiyama1, Hiroshi Hashizume2, Hiromasa Tanaka2, Masaru Hori2, Masafumi Ito1 (1. Meijo University (Japan), 2. Nagoya University (Japan))
[04P-82]Microdischarge Plasma Treatment of Barley Seeds Promotes Sprout Growth
*Taiki Hirohata1, Ryosuke Ueshima1, Kazuki Tange1, Yoshihisa Ikeda 1, Masafumi Jinno1 (1. Ehime University (Japan))
[04P-83]Improvement of grain quality of brewer’s rice cultivar by plasma treatment in an actual cultivation field at various plant-growth stages
*Masaru Hori1, Hiroshi Hashizume1 (1. Nagoya University (Japan))
[04P-84]Bactericidal effects of oxygen radical activated Tween20 solutions fractionated by liquid chromatography
*Daichi Michiyama1, Hiroshi Hashizume2, Hiromasa Tanaka2, Masaru Hori2, Masafumi Ito1 (1. Meijo University (Japan), 2. Nagoya University (Japan))
[04P-86]Bactericidal effect of rice straw solutions prepared at different concentrations
*Kenta Shimizu1, Shoto Nakashima1, Motoyuki Shimizu1, Hironaka Tsukagoshi1, Masashi Kato1, Masafumi Ito1 (1. Meijo University (Japan))
[04P-87]Measurement of ozone permeability through rice seed coats using atmospheric-pressure mass spectrometry
*Kota Kawaguchi1, Kosuke Muto1, Hironaka Tsukagoshi1, Hiromasa Tanaka2, Kenji Ishikawa2, Masaru Hori2, Masafumi Ito1 (1. Meijo University (Japan), 2. Nagoya University (Japan))
[04P-88]Bactericidal effects of oxygen radical-irradiated sodium copper chlorophyllin solution
*Koki Fukui1, Soya Goto1, Hiromasa Tanaka2, Masaru Hori2, Masafumi Ito1 (1. Meijo University (Japan), 2. Nagoya University (Japan))
[04P-89]Influence of atmospheric pressure glow plasma on enzymatic hydrolysis of rice straw
*Shoto Nakashima1, Kenta Shimizu1, Motoyuki Shimizu1, Masashi Kato1, Masafumi Ito1 (1. Meijo University (Japan))
[04P-90]Sustainable nitrogen fixation via a dual phase DBD plasma reactor
*Robert Karisa Masumbuko1, Nobusuke Kobayashi1, Akira Suami1, Kenji Kamiya 2 (1. Gifu University (Japan), 2. Tokyo University of Agriculture and Technology (Japan))
[04P-91]Plasma treatment improves the stability of surface organic coatings on titanium
Yu-Jui Chang1, Han-Chieh Lee 1, *Shiao-Wen Tsai1,2 (1. Chang Gung University (Taiwan), 2. Chang Gung Memorial Hospital (Taiwan))
[04P-92]Stable plasma-polymerized acrylic acid film on a PCL scaffold enabling biphasic release of PDGF-BB for oral soft tissue regeneration
*Huong Thi Dang1,2, Tien Ngoc Thuy Nguyen1,2, Byung-Hoon Kim1,2 (1. Chosun University (Korea), 2. Convergence Research Center for Treatment of Oral Soft Tissue Disease (MRC), Chosun University (Korea))
[04P-93]Atmospheric plasma treatment of 3D PCL scaffolds enhances gelMA-PCL interfacial integration and bone regeneration
*Hang Do Thanh Duong1,2, Inho Bae1,2, Byung Hoon Kim1,2 (1. Chosun University (Korea), 2. Chosun University, Convergence Research Center for Treatment of Oral Soft Tissue Disease (MRC) (Korea))
[04P-94]Effect of oxygen plasma treatment on the properties of electrospun polyvinyl alcohol/β-cyclodextrin nanofibers
Ming Hua Shiao1, Cheng-Jui Wang2, Wen-Sen Fan2, Yi-Hsien Lin3, Sin-Liang Ou2, *Hung-Pin Chen1, Wei-Chun Chen1 (1. National Center for Instrumentation Research, National Institutes of Applied Research (Taiwan), 2. Department of Biomedical Engineering, Da-Yeh University (Taiwan), 3. Department of Electronic Engineering, National Yunlin University of Science and Technology (Taiwan))
[04P-96]Amine Plasma Functionalized PCL Films for Electrostatic Immobilization of Naproxen and Enhanced Anti-Inflammatory Activity
*Changyoung Kim1, Namuun Khentii1, Min-Suk Kook1 (1. Chonnam National University, Korea (Korea))
[04P-97]Surface Modification of Polyurethane via Low-Temperature Atmospheric Pressure Plasma and UV-Induced Graft Polymerization of Zwitterionic Hydrogel for Hyaluronic Acid Immobilization
Jhong-Kun Siao1, Yu-Qi Huang2, *Shu-Chuan Liao2 (1. Da-Yeh University (Taiwan), 2. Tamkang University (Taiwan))
[04P-99]Mechanical Stability and Wettability of Plasma-Activated Poly(Acrylic Acid)-g-Sodium Alginate Hydrogel
*Rodgeson Jev Flores1, Lanel Rose Cordova1, Kathrina Lois Taaca1 (1. University of the Philippines Diliman (Philippines))
[04P-101]Modulating the transparency and hydrophobicity of polyethylene glycol-based hydrogel using RF plasma
*Allyah Bianca Enimedez1, Aldgenne Jallorina1, Magdaleno Vasquez1, Kathrina Lois Taaca1 (1. University of the Philippines Diliman (Philippines))
[04P-102]Plasma exposure effects on cell membrane structure during gene transfer
*Ori Tanaka1, Ryunosuke Tsuji1, Shinya Kumagai1 (1. Meijo University (Japan))
[04P-103]A Plasma-Modified, All-Elastic Microfluidic Chip Platform for Enhancing the Growth and Function of Adherent Cells
*Chen-Hsun Weng1, Cen-Yue Juou1, Ping-Han Chuang1 (1. National Cheng Kung University (Taiwan))
[04P-104]Analysis of plasma stimulation propagation from air-liquid interface
*Kosei Shimizu1, Hayata Okino1, Shinya Kumagai1 (1. Meijo University (Japan))
[04P-105]SERS Biosensors with Light-Capture Capability by Flexible Negative Pyramid Microarrays Coated with Silver Nanoparticles
*Ting-Yu Liu1, Chia-Hsien Lin1, You-Yu Liao1, Bo-Wei Chen1, Si-Tong Liu1, Kuan-Syun Wang1 (1. Ming Chi University of Technology (Taiwan))
[04P-106]Development of chitosan/polyethylene glycol/hydroxyapatite (CS/PEG/HAp) biocomposite and effects of sterilization
*Beronne Loraine Rafal Truya1, Kathrina Lois Taaca1 (1. University of the Philippines Diliman (Philippines))
[04P-107]HiPIMS in Helium – Plasma analysis
*Tiberiu Minea1, Zakaria Belkaid1, Erwan Morel2, Adrien Revel1 (1. University of Paris-Saclay (France), 2. CNRS (France))
[04P-108]Physics-Informed Feature Engineering for Plasma-Based Thin-Film Deposition Using Plasma and Material Information Science
*Kunihiro Kamataki1, Sukma Wahyu Fitriani1, Yosei Kurosaki1, Tsukasa Masamoto1, Takamasa Okumura1, Naho Itagaki1, Kazunori Koga1, Masaharu Shiratani1 (1. Kyushu University (Japan))