| Sunday 15th June | Monday 16th June | Tuesday 17th June | Wednesday 18th June | Thursday 19th June | Friday 20th June |
| Track: A | Track: B | Track: C | |||
|---|---|---|---|---|---|
| 16:00 | Poster Session 2 | ||||
| 1. Fundamentals of plasma-surface interactions | |||||
| P2.1.1 | Influence of molecular and turbulent diffusion on CO2 conversion in thermal plasma reactors Helder Van Poyer, Ivan Tsonev, Stein Maerivoet, Matthias Albrechts, Annemie Bogaerts PLASMANT | ||||
| P2.1.2 | Nitrogenation of linear and branched alkanes by ambient-pressure dielectric-barrier post-discharges: Where goes the nitrogen? Meret Leonie Betz, Vitaly Raev, Dina Schmitz, Stefan Schulz, Claus-Peter Klages (1) TU Braunschweig, Institute for Surface Technology, (2) TU Braunschweig, Institute of Organic Chemistry | ||||
| P2.1.3 | Comparison Study of Sliding and Water Electrode Discharges for Organic Pollutant Degradation Zinat Ara Nisha, Mikel Douangdara, Olga Pakhomova, Chunqi Jiang (1)Frank Reidy Research Centre for Bioelectric, (2)Electrical and Computer Engineering, Old Dominion University Norfolk | ||||
| P2.1.4 | Effects of RF-driven ion energy distribution on atomic layer etching of Si-based materials Jomar Tercero, Satoshi Hamaguchi Osaka University | ||||
| P2.1.5 | Comparisons of Post-Etch Diamond XPS Analysis with Simulations Justin Boles, Jack Draney, Vincent Donnelly, David Graves (1) University of Houston (2) Princeton University | ||||
| P2.1.6 | Packed bed reactor for in situ study of the catalyst surface during plasma assisted catalysis Sophia Gershman, Vashanti Storr, Maria Carreon (1) Princeton Plasma Physics Laboratory, (2) University of Ar | ||||
| P2.1.7 | Insight into plasma polymerization with a significant contribution of etching to the deposition process Martina Janůšová, David Nečas, Paula Navascués, Dirk Hegemann, Stevan Gavranović, Lenka Zajíčková (1) CEITEC, (2) EMPA, (3) Brno University of Technology, (4) Masaryk University | ||||
| 2. Fundamentals and applications of thermal plasma | |||||
| P2.2.1 | Modelling of micro-discharges in metal vapor of zinc for applications in explosion protection Aleksandar Jovanović, Margarita Baeva, Ralf Methling, Dominik Bratek, Niklas Schüler, Carsten Uber, Dirk Uhrlandt (1) INP Greifswald (2) PTB Braunschweig | ||||
| P2.2.2 | Transport Properties of Water-Air Mixture System Makoto Sugimoto, Yosuke Kishimoto, Honatsu Sorai, Manabu Tanaka, Takayuki Watanabe, Masaya Shigeta (1) Tohoku University, (2) Kyushu University | ||||
| P2.2.3 | Numerical Study of Plasma Torch Performance Using LTE-Assumption Byeongryun Jeon, Hansol Kwon, Yeon Woo Yoo, Do Hyun Kim, Youngjin Park, Yong-jin Kang, Sunghun Lee, June Kee Min, Hunkwan Park (1) KIMS(Korea Institute of Materials Science), (2) KIMS, (3) KIMS, (4) KIMS, (5) KIMS, (6) KIMS, (7) KIMS, (8) Pusan National University (9) KIMS | ||||
| P2.2.4 | Development of a pilot scale thermal plasma reactor for research on in-situ plasma dynamics and thermal distribution Roar Jensen, Robert Fritzsch, Trygve Aarnæs, Anders H. Hansen, Håkon Sagberg, Halvor Dalaker Plasma dynamics, thermal plasma torch, testing reactor, industrial scale | ||||
| P2.2.5 | Synthesis of Graphene Nanoflakes by Methane Pyrolysis in Thermal Plasma Gwangbeom Yang, Yong Hee Lee, Jeong-Hwan Oh, Sooseok Choi (1) Jeju National University, (2) Jeju National University, (3) Jeju National University, (4) Enclion Inc. | ||||
| P2.2.6 | Visualization of Thermal Plasma Jet Induced Turbulence Using Spatial-Frequency-Resolved Schlieren Sensor
Yuito Yamada, Yuki Inada, Makoto Sugimoto, Joe Yoshikawa, Manabu Tanaka, Masaya Shigeta (1) Tohoku University, (2) Saitama University, (3) Industrial Technology Institute, Miyagi Prefectural Government, (4) Kyushu University | ||||
| P2.2.7 | Synthesis of Iron Nitride Nanoparticles using DC Thermal Plasma Seong-Pyo Kang, Han Jun Lee, Tae-Hee Kim, Se Jin Oh (1)Wonkwang University | ||||
| P2.2.8 | Influence of Metal Catalysts on Synthesis of Low-Diameter Single-Walled Carbon Nanotubes by DC Thermal Plasma Process Seong-Pyo Kang, Han Jun Lee, Se Jin Oh, Tae-Hee Kim (1) Wonkwang Unversity | ||||
| P2.2.9 | Boron Nitride Nanotubes Using Ammonia by Triple Thermal Plasma Seunghyeon Kim, Yong Hee Lee, Jeong-Hwan Oh, Sooseok Choi (1) Jeju National University, (2) Jeju National University, (3) Jeju National University, (4) Enclion Inc. | ||||
| P2.2.10 | Computational Investigation of MCrAlY Coatings Under Different Gas Mixtures in Vacuum Plasma Spray Hunkwan Park, Yong-jin Kang, Do Hyun Kim, Hansol Kwon, Youngjin Park, Yeon Woo Yoo, Eungsun Byon Korea Institute of Materials Science | ||||
| 3. Fundamentals of non-equilibrium plasma | |||||
| P2.3.1 | Characteristics of PT-Driven Plasma Discharge at Atmospheric Pressure Prangan Nandy, Md Fahim, Sourav Banerjee, Tanvir Farouk University of South Carolina | ||||
| P2.3.2 | Instability and Striations in Water Vapor discharge John Hill, Tanvir Farouk, Rori Pumphrey (1) University of South Carolina | ||||
| P2.3.3 | Interactions of guided ionization waves Swati Dahiya, Kevin Youngman, Brian Z Bentz Sandia National Laboratories | ||||
| P2.3.4 | Time-resolved optical emission spectroscopy of an inductively coupled Ar-Cl2 plasma at low-pressure for Atomic Layer Etching Raphaël Robert, Simon Chouteau, Luc Stafford (1) Université de Montréal | ||||
| P2.3.5 | Atmospheric Pressure Non-Thermal Plasma: Comparing Silane and Methane Cameron Papson, Sankhadeep Basu, Rebecca Anthony Michigan State University (MSU) | ||||
| P2.3.6 | New Evaluation Method of Charge of a Microparticle in Ar Plasma Using Optical Tweezers Takuro Sugita, Kousei Iguchi, Kunihiro Kamataki, Daisuke Yamashita, Takamasa Okumura, Naho Itagaki, Kazunori Koga, Masaharu Shiratani Kyshu University | ||||
| 5. Plasma modelling | |||||
| P2.5.1 | Insight into energy transfer and NOx synthesis in the afterglow by chemical multi-temperature plasma modelling Qinghao Shen, Aleksandr Pikalev, Floran Peeters, Vasco Guerra, Richard van de Sanden (1) DIFFER, (2) Maastricht University, (3) Universidade de Lisboa, (4) Leyden Jar Company, (5) Eindhoven University of Technology | ||||
| P2.5.2 | CFD modelling of a non-LTE helium discharge using reacting flow and ionic wind approaches Avinash Maharaj, Samuel Iwarere (1) UKZN, (2) UP | ||||
| P2.5.3 | Transport Properties of an MnO/H2 Based Thermal Plasma Sverre G. Johnsen, Quinn G. Reynolds, Stefan Andersson (1) SINTEF, (2) Mintek, (3) SINTEF | ||||
| P2.5.4 | Numerical simulation of chemical reactions induced by ionization waves propagation from an atmospheric pressure plasma jet Shota Okada, Tomoyuki Murakami Seikei University | ||||
| P2.5.5 | Prediction of Reaction Rates with Machine Learning in a CCP Cameron Wagoner, Amanda Lietz (1) NC State University | ||||
| P2.5.6 | Analysis of local ion tilting in a capacitively coupled pulsed plasma using a two-dimensional particle-in-cell simulation Ji Hyun Shin, Cheol Woong Kim, Dong Young Kim, Hae June Lee Pusan National University | ||||
| P2.5.7 | Investigation of the Effects of Charging and Secondary Electron Emission on High Aspect Ratio ONO Plasma Etching Chenyao Huang, Steven Shannon, Mark Kushner (1) University of Michigan (2) North Carolina State University (3) University of Michigan | ||||
| 10. Plasma-based gas conversion and chemical synthesis | |||||
| P2.10.1 | Carbon beds in CO2 conversion by plasma: Process enhancement via the reverse Boudouard reaction Yury Gorbanev, Colin O'Modhrain, Omar Biondo, Hugo Vallet, Annemie Bogaerts University of Antwerp | ||||
| P2.10.2 | Coupling a CO2 plasma with a carbon bed: the closer the better Omar Biondo, Kaiyi Wang, Hao Zhang, Annemie Bogaerts University of Antwerp | ||||
| P2.10.3 | NO and H2 production from water and nitrogen using arc plasma for synthesizing ammonia Heesoo Lee, Hong Jae Kang, Dae Hoon Lee Korea Institute of Machinery and Materials | ||||
| P2.10.4 | The chemistry of plasma-assisted dry reforming of methane N Hansen, E Litzer, L Sheps, H Chen, B Yang (1) Sandia National Laboratories, (2) Tsinghua University | ||||
| P2.10.5 | Hybrid fs/ps CARS measurements of enhanced vibrational excitation of N2 in ferroelectric barrier discharge Yijie Xu, Ziqiao Chang, Tanubhav Srivastava, Yiguang Ju (1)Princeton University, (2)Princeton Plasma Physics Laboratory | ||||
| P2.10.6 | Non-equilibrium vibrational kinetics and energy transfer in plasma-enhanced methane reforming Geon Hwi Kim, Ziqiao Chang, Bowen Mei, Zhiyu Shi, Tanubhav Srivastava, Mohammad Adil, Yiguang Ju (1) Princeton University (2) Princeton Plasma Physics Laboratory | ||||
| P2.10.7 | Dehydrogenative Condensation via Plasma: Impacts on Sugar Alcohol Crystals Ryosuke Watanabe, Yosikazu Hattori, Yuya Haraguchi, Hiroyuki Kumeta, Gen Hayase, Aruga Hiroko Katori, Takahiro Muraoka, Shinichi Sato, Tomohide Saio, Daisuke Yoshino (1) TUAT, (2) Tokushima University, (3) Hokkaido University, (4) NIMS, (5) Tohoku University | ||||
| P2.10.8 | Catalytic Plasma Co-Upcycling of Waste Plastics and CO2 with HZSM-5 Sultan Ul Iffat Uday, Harish Radhakrishnan, Hui Hu, Xianglan Bai (1) Iowa State University | ||||
| P2.10.9 | Thermo-Fluid Effects in Microwave Plasma Pyrolysis of Methane Spad Acharya, Siebe Dijcks, Aditya Bhan, Peter Bruggeman, Juan Pablo Trelles (1) University of Massachusetts Lowell, (2) University of Minnesota | ||||
| P2.10.10 | Plasma Induced Biomass tar reformation: Thermodynamic Modelling and Experimental Validation. Mobish Shaji, Francis Eboh, Alexander Rabinovich, Liran Dor, Alexander Fridman (1) Drexel University, (2) Bosson Energy | ||||
| P2.10.11 | Cyclic plasma-catalytic system applied for VOC removal with repetitive deactivation and regeneration of catalysts Richard Cimerman, Jana Kšanová, Christian Oberste-Beulmann, Oleksandr Galmiz, Peter Švec, Karol Hensel (1) Comenius University, (2) Ruhr Univerity Bochum, (3) Slovak Academy of Sciences | ||||
| P2.10.12 | Partial Methane Oxidation to Methanol at Plasma-Catalyst-Liquid Interfaces James Ho, Matthew Hershey, Wesley Beck, Dayne Swearer Northwestern University | ||||
| P2.10.13 | H2 temperature measurements in a CH4 microwave plasma for the production of higher hydrocarbons Niek den Harder, M.L. Moreira de Azevedo, T.W.H Righart, M.D. Ruijzendaal, Gerard van Rooij Department of Circular Chemical Engineering, Faculty of Science and Engineering, Maastricht University, Maastricht, The Netherlands | ||||
| P2.10.14 | Catalytic Deconstruction Product Tunability Through Atmospheric Air
Plasma Pre-Treatment Aunic Goodin, Sujoy Bepari, Shashwata Chakraborty, Tridip Das, William Goddard III, Debasish Kuila, Steven Shannon (1)North Carolina State University (2) North Carolina Agricultural and Technical State University (3) California Institute of Technology, | ||||
| P2.10.15 | Catalyst-free oxalate production in water from CO2 discharge: Modelling perspectives Tianqi Zhang, Josip Knezevic, Menying Zhou, Jungmi Hong, Jarrod Algie, Renwu Zhou, Qiang Song, Luyao Ding, Jing Sun, Dingxin Liu, Rusen Zhou, Patrick J. Cullen, Anthony B. Murphy (1)University of Sydney, (2) Xi'an Jiaotong University and (3) CSIRO | ||||
| 13. Plasmas for environmental applications | |||||
| P2.13.1 | State of Knowledge on Cold Plasma Technology for PFAS Degradation Leila Alidokht, Yue Sun, Mariana Lanzarini Lopes University of Massachusetts Amherst | ||||
| P2.13.2 | Numerical investigation of NO reduction in an RF He plasma at atmospheric pressure in a confined geometry Tao Zhu, Margarita Baeva, Florian Sigeneger, Shubham Dongarwar, Peter Bruggeman (1) INP Greifswald, (2) Minnesota University | ||||
| P2.13.3 | Nonthermal Plasma Treatment of Solid Adsorbents for CO2 Capture Robyn Iannitto, Keun Su Kim, Christopher Kingston, Dean Ruth, Mark Plunkett, Liliana Gaburici, Ramzi Aoun , Kourosh Zanganeh, Ali Asgarian (1) NRC, (2) NRCan | ||||