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Author	Yan, M.; Bogaerts, A.; Gijbels, R.
Title	Kinetic modeling of relaxation phenomena after photodetachment in a rf electronegative SiH₄ discharge			Type	A1 Journal article
Year	2001	Publication	Physical review : E : statistical physics, plasmas, fluids, and related interdisciplinary topics	Abbreviated Journal	Phys Rev E
Volume	63	Issue	2Part 2	Pages
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	The global relaxation process after pulsed laser induced photodetachment in a rf electronegative SIH4 discharge is studied by a self-consistent kinetic one-dimensional particle-in-cell-Monte Carlo model. Our results reveal a comprehensive physical picture of the relaxation process, including the main plasma variables, after a perturbation up to the full recovery of the steady state. A strong influence of the photodetachment on the discharge is found, which results from an increase of the electron density, leading to a weaker bulk field, and hence to a drop in the high energy tail of the electron energy distribution function (EEDF), a reduction of the reaction rates of electron impact attachment and ionization, and a subsequent decrease of the positive and negative ion densities. All the plasma quantities related to electrons recover synchronously. The recovery time of the ion densities is about 1-2 orders of magnitude longer than that of the electrons due to different recovery mechanisms. The modeled behavior of all the charged particles agrees very well with experimental results from the literature. In addition, our work clarifies some unclear processes assumed in the literature, such as the relaxation of the EEDF, the evolution of the electric field, and the recovery of negative ions.
Address
Corporate Author				Thesis
Publisher	American Institute of Physics	Place of Publication	Woodbury (NY)	Editor
Language		Wos	000167022500057	Publication Date	2002-07-27
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1063-651X;1095-3787;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.366	Times cited	4	Open Access
Notes				Approved	Most recent IF: 2.366; 2001 IF: 2.235
Call Number	UA @ lucian @ c:irua:34148			Serial	1757
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Author	Piacente, G.; Peeters, F.M.; Betouras, J.J.
Title	Normal modes of a quasi-one-dimensional multichain complex plasma			Type	A1 Journal article
Year	2004	Publication	Physical review : E : statistical physics, plasmas, fluids, and related interdisciplinary topics	Abbreviated Journal	Phys Rev E
Volume	70	Issue	3Part 2	Pages
Keywords	A1 Journal article; Condensed Matter Theory (CMT)
Abstract	We studied equally charged particles, suspended in a complex plasma, which move in a plane and interact with a screened Coulomb potential (Yukawa type) and with an additional external confining parabolic potential in one direction, which makes the system quasi-one-dimensional (Q1D). The normal modes of the system are studied in the presence of dissipation. We also investigated how a perpendicular magnetic field couples the phonon modes with each other. Two different ways of exciting the normal modes are discussed: (1) a uniform excitation of the Q1D lattice, and (2) a local forced excitation of the system in which one particle is driven by, e.g., a laser. Our results are in very good agreement with recent experimental findings on a finite single chain system [Liu , Phys. Rev. Lett. 91, 255003 (2003)]. Predictions are made for the normal modes of multichain structures in the presence of damping.
Address
Corporate Author				Thesis
Publisher		Place of Publication	Lancaster, Pa	Editor
Language		Wos	000224302300081	Publication Date	2004-09-21
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1539-3755;1550-2376;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.366	Times cited	18	Open Access
Notes				Approved	Most recent IF: 2.366; 2004 IF: NA
Call Number	UA @ lucian @ c:irua:69417			Serial	2369
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Author	Razzokov, J.; Yusupov, M.; Bogaerts, A.
Title	Possible Mechanism of Glucose Uptake Enhanced by Cold Atmospheric Plasma: Atomic Scale Simulations			Type	A1 Journal article
Year	2018	Publication	Plasma	Abbreviated Journal
Volume	1	Issue	1	Pages
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Cold atmospheric plasma (CAP) has shown its potential in biomedical applications, such as wound healing, cancer treatment and bacterial disinfection. Recent experiments have provided evidence that CAP can also enhance the intracellular uptake of glucose molecules which is important in diabetes therapy. In this respect, it is essential to understand the underlying mechanisms of intracellular glucose uptake induced by CAP, which is still unclear. Hence, in this study we try to elucidate the possible mechanism of glucose uptake by cells by performing computer simulations. Specifically, we study the transport of glucose molecules through native and oxidized membranes. Our simulation results show that the free energy barrier for the permeation of glucose molecules across the membrane decreases upon increasing the degree of oxidized lipids in the membrane. This indicates that the glucose permeation rate into cells increases when the CAP oxidation level in the cell membrane is increased.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos		Publication Date	2018-06-08
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	2571-6182	ISBN		Additional Links	UA library record
Impact Factor		Times cited		Open Access	OpenAccess
Notes	The computational work was carried out using the Turing HPC infrastructure at the CalcUA core facility of the Universiteit Antwerpen, a division of the Flemish Supercomputer Center VSC, funded by the Hercules Foundation, the Flemish Government (department EWI), and the Universiteit Antwerpen.			Approved	Most recent IF: NA
Call Number	PLASMANT @ plasmant @ plasma1010011c:irua:152176			Serial	4990
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Author	Bogaerts, A.; Snoeckx, R.; Trenchev, G.; Wang, W.
Title	Modeling for a Better Understanding of Plasma-Based CO2 Conversion			Type	H1 Book Chapter
Year	2018	Publication	Plasma Chemistry and Gas Conversion	Abbreviated Journal
Volume		Issue		Pages
Keywords	H1 Book Chapter; Plasma, laser ablation and surface modeling Antwerp (PLASMANT) ;
Abstract	This chapter discusses modeling efforts for plasma-based CO2 conversion, which are needed to obtain better insight in the underlying mechanisms, in order to improve this application. We will discuss two types of (complementary) modeling efforts that are most relevant, that is, (i) modeling of the detailed plasma chemistry by zero-dimensional (0D) chemical kinetic models and (ii) modeling of reactor design, by 2D or 3D fluid dynamics models. By showing some characteristic calculation results of both models, for CO2 splitting and in combination with a H-source, and for packed bed DBD and gliding arc plasma, we can illustrate the type of information they can provide.
Address
Corporate Author				Thesis
Publisher	IntechOpen	Place of Publication	Rijeka	Editor	Britun, N.; Silva, T.
Language		Wos		Publication Date	2018-12-19
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN		ISBN		Additional Links	UA library record
Impact Factor		Times cited		Open Access	Not_Open_Access
Notes				Approved	Most recent IF: NA
Call Number	PLASMANT @ plasmant @ Bogaerts18c:irua:155915			Serial	5142
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Author	Duan, J.; Ma, M.; Yusupov, M.; Cordeiro, R.M.; Lu, X.; Bogaerts, A.
Title	The penetration of reactive oxygen and nitrogen species across the stratum corneum			Type	A1 Journal article
Year	2020	Publication	Plasma Processes And Polymers	Abbreviated Journal	Plasma Process Polym
Volume		Issue		Pages
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	The penetration of reactive oxygen and nitrogen species (RONS) across the stratum corneum (SC) is a necessary and crucial process in many skin‐related plasma medical applications. To gain more insights into this penetration behavior, we combined experimental measurements of the permeability of dry and moist SC layers with computer simulations of model lipid membranes. We measured the permeation of relatively stable molecules, which are typically generated by plasma, namely H2O2, NO3−, and NO2−. Furthermore, we calculated the permeation free energy profiles of the major plasma‐generated RONS and their derivatives (i.e., H2O2, OH, HO2, O2, O3, NO, NO2, N2O4, HNO2, HNO3, NO2−, and NO3−) across native and oxidized SC lipid bilayers, to understand the mechanisms of RONS permeation across the SC. Our results indicate that hydrophobic RONS (i.e., NO, NO2, O2, O3, and N2O4) can translocate more easily across the SC lipid bilayer than hydrophilic RONS (i.e., H2O2, OH, HO2, HNO2, and HNO3) and ions (i.e., NO2− and NO3−) that experience much higher permeation barriers. The permeability of RONS through the SC skin lipids is enhanced when the skin is moist and the lipids are oxidized. These findings may help to understand the underlying mechanisms of plasma interaction with a biomaterial and to optimize the environmental parameters in practice in plasma medical applications.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	000536892900001	Publication Date	2020-06-02
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	3.5	Times cited		Open Access
Notes	National Natural Science Foundation of China, 51625701 51977096 ; Fonds Wetenschappelijk Onderzoek, 1200219N ; China Scholarship Council, 201806160128 ; M. Y. acknowledges the Research Foundation Flanders (FWO) for financial support (Grant No. 1200219N). This study was partially supported by the National Natural Science Foundation of China (Grant No: 51625701 and 51977096) and the China Scholarship Council (Grant No: 201806160128). All computational work was performed using the Turing HPC infrastructure at the CalcUA Core Facility of the University of Antwerp (UA), a division of the Flemish Supercomputer Center VSC, funded by the Hercules Foundation, the Flemish Government (department EWI), and the UA.			Approved	Most recent IF: 3.5; 2020 IF: 2.846
Call Number	PLASMANT @ plasmant @c:irua:169709			Serial	6372
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Author	Bogaerts, A.; Neyts, E.C.; Guaitella, O.; Murphy, A.B.
Title	Foundations of plasma catalysis for environmental applications			Type	A1 Journal article
Year	2022	Publication	Plasma Sources Science & Technology	Abbreviated Journal	Plasma Sources Sci T
Volume		Issue		Pages
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Plasma catalysis is gaining increasing interest for various applications, but the underlying mechanisms are still far from understood. Hence, more fundamental research is needed to understand these mechanisms. This can be obtained by both modelling and experiments. This foundations paper describes the fundamental insights in plasma catalysis, as well as efforts to gain more insights by modelling and experiments. Furthermore, it discusses the state-of-the-art of the major plasma catalysis applications, as well as successes and challenges of technology transfer of these applications.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	000804396200001	Publication Date	2022-03-21
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0963-0252	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	3.8	Times cited		Open Access	OpenAccess
Notes	H2020 Marie Skłodowska-Curie Actions, 823745 ; H2020 European Research Council, 810182 ; We acknowldege financial support from the European Research Council (ERC) under the European Union’s Horizon 2020 Research and Innovation programme (Grant Agreement No. 810182 – SCOPE ERC Synergy project) and the European Union’s Horizon 2020 Research and Innovation programme under the Marie Sklodowska-Curie Grant Agreement No. 813393 (PIONEER).			Approved	Most recent IF: 3.8
Call Number	PLASMANT @ plasmant @c:irua:188539			Serial	7070
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Author	Yusupov, M.; Dewaele, D.; Attri, P.; Khalilov, U.; Sobott, F.; Bogaerts, A.
Title	Molecular understanding of the possible mechanisms of oligosaccharide oxidation by cold plasma			Type	A1 Journal article
Year	2022	Publication	Plasma processes and polymers	Abbreviated Journal	Plasma Process Polym
Volume		Issue		Pages
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Cold atmospheric plasma (CAP) is a promising technology for several medical applications, including the removal of biofilms from surfaces. However, the molecular mechanisms of CAP treatment are still poorly understood. Here we unravel the possible mechanisms of CAP‐induced oxidation of oligosaccharides, employing reactive molecular dynamics simulations based on the density functional‐tight binding potential. Specifically, we find that the interaction of oxygen atoms (used as CAP‐generated reactive species) with cellotriose (a model system for the oligosaccharides) can break structurally important glycosidic bonds, which subsequently leads to the disruption of the oligosaccharide molecule. The overall results help to shed light on our experimental evidence for cellotriose CAP. This oxidation by study provides atomic‐level insight into the onset of plasma‐induced removal of biofilms, as oligosaccharides are one of the main components of biofilm.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	000865844800001	Publication Date	2022-10-11
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	3.5	Times cited		Open Access	OpenAccess
Notes	Fonds Wetenschappelijk Onderzoek, 1200219N ; They also acknowledge the Turing HPC infrastructure at the CalcUA core facility of the University of Antwerp (UA), a division of the Flemish Supercomputer Center VSC, funded by the Hercules Foundation, the Flemish Government (department EWI), and the UA, where all computational work was performed. This study was financially supported by the Research Foundation–Flanders (FWO) (grant number 1200219N).			Approved	Most recent IF: 3.5
Call Number	PLASMANT @ plasmant @c:irua:191404			Serial	7113
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Author	Morais, E.; Bogaerts, A.
Title	Modelling the dynamics of hydrogen synthesis from methane in nanosecond‐pulsed plasmas			Type	A1 Journal article
Year	2024	Publication	Plasma processes and polymers	Abbreviated Journal	Plasma Processes & Polymers
Volume	21	Issue	1	Pages
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	A chemical kinetics model was developed to characterise the gas‐phase dynamics of H<sub>2</sub>production in nanosecond‐pulsed CH<sub>4</sub>plasmas. Pulsed behaviour was observed in the calculated electric field, electron temperature and species densities at all pressures. The model agrees reasonably with experimental results, showing CH<sub>4</sub>conversion at 30% and C<sub>2</sub>H<sub>2</sub>and H<sub>2</sub>as major products. The underlying mechanisms in CH<sub>4</sub>dissociation and H<sub>2</sub>formation were analysed, highlighting the large contribution of vibrationally excited CH<sub>4</sub>and H<sub>2</sub>to coupling energy from the plasma into gas‐phase heating, and revealing that H<sub>2</sub>synthesis is not affected by applied pressure, with selectivity remaining unchanged at ~42% in the 1–5 bar range.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	001091258700001	Publication Date	2023-10-27
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	3.5	Times cited		Open Access	Not_Open_Access
Notes	We gratefully acknowledge financial support by the Flemish Government through the Moonshot cSBO project “Power‐to‐Olefins” (P2O; HBC.2020.2620) and funding from the Independent Research Fund Denmark (project nr. 0217‐00231B).			Approved	Most recent IF: 3.5; 2024 IF: 2.846
Call Number	PLASMANT @ plasmant @c:irua:201192			Serial	8983
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Author	Bercx, M.; Mayda, S.; Depla, D.; Partoens, B.; Lamoen, D.
Title	Plasmonic effects in the neutralization of slow ions at a metallic surface			Type	A1 Journal Article
Year	2023	Publication	Contributions to Plasma Physics	Abbreviated Journal	Contrib. Plasma Phys
Volume		Issue		Pages
Keywords	A1 Journal Article; Electron Microscopy for Materials Science (EMAT) ;
Abstract	Secondary electron emission is an important process that plays a significant role in several plasma‐related applications. As measuring the secondary electron yield experimentally is very challenging, quantitative modelling of this process to obtain reliable yield data is critical as input for higher‐scale simulations. Here, we build upon our previous work combining density functional theory calculations with a model originally developed by Hagstrum to extend its application to metallic surfaces. As plasmonic effects play a much more important role in the secondary electron emission mechanism for metals, we introduce an approach based on Poisson point processes to include both surface and bulk plasmon excitations to the process. The resulting model is able to reproduce the yield spectra of several available experimental results quite well but requires the introduction of global fitting parameters, which describe the strength of the plasmon interactions. Finally, we use an in‐house developed workflow to calculate the electron yield for a list of elemental surfaces spanning the periodic table to produce an extensive data set for the community and compare our results with more simplified approaches from the literature.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	001067651300001	Publication Date	2023-09-16
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0863-1042	ISBN		Additional Links	UA library record; WoS full record
Impact Factor	1.6	Times cited		Open Access	Not_Open_Access
Notes	We acknowledge the financial support of FWO-Vlaanderen through project G.0216.14N. The computational resources and services used in this work were provided by the VSC (Flemish Supercomputer Center) and the HPC infrastructure of the University of Antwerp (CalcUA), both funded by the FWO-Vlaanderen and the Flemish Government-department EWI.			Approved	Most recent IF: 1.6; 2023 IF: 1.44
Call Number	EMAT @ emat @c:irua:200330			Serial	8962
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Author	Bogaerts, A.; van de Sanden, R.
Title	Special Issue of Papers by Plenary and Topical Invited Lecturers at the 22nd International Symposium on Plasma Chemistry (ISPC 22), 5–10 July 2015, Antwerp, Belgium: Introduction			Type	Editorial
Year	2016	Publication	Plasma chemistry and plasma processing	Abbreviated Journal	Plasma Chem Plasma P
Volume	36	Issue	36	Pages	1-2
Keywords	Editorial; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	000370720800001	Publication Date	2016-01-11
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0272-4324	ISBN		Additional Links	UA library record; WoS full record
Impact Factor	2.355	Times cited		Open Access
Notes				Approved	Most recent IF: 2.355
Call Number	c:irua:130713			Serial	4003
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Author	Bekeschus, S.; Lin, A.; Fridman, A.; Wende, K.; Weltmann, K.-D.; Miller, V.
Title	A comparison of floating-electrode DBD and kINPen jet : plasma parameters to achieve similar growth reduction in colon cancer cells under standardized conditions			Type	A1 Journal article
Year	2018	Publication	Plasma chemistry and plasma processing	Abbreviated Journal	Plasma Chem Plasma P
Volume	38	Issue	1	Pages	1-12
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	A comparative study of two plasma sources (floating-electrode dielectric barrier discharge, DBD, Drexel University; atmospheric pressure argon plasma jet, kINPen, INP Greifswald) on cancer cell toxicity was performed. Cell culture protocols, cytotoxicity assays, and procedures for assessment of hydrogen peroxide (H2O2) were standardized between both labs. The inhibitory concentration 50 (IC50) and its corresponding H2O2 deposition was determined for both devices. For the DBD, IC50 and H2O2 generation were largely dependent on the total energy input but not pulsing frequency, treatment time, or total number of cells. DBD cytotoxicity could not be replicated by addition of H2O2 alone and was inhibited by larger amounts of liquid present during the treatment. Jet plasma toxicity depended on peroxide generation as well as total cell number and amount of liquid. Thus, the amount of liquid present during plasma treatment in vitro is key in attenuating short-lived species or other physical effects from plasmas. These in vitro results suggest a role of liquids in or on tissues during plasma treatment in a clinical setting. Additionally, we provide a platform for correlation between different plasma sources for a predefined cellular response.
Address
Corporate Author				Thesis
Publisher		Place of Publication	New York	Editor
Language		Wos	000419479000001	Publication Date	2017-09-06
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0272-4324	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.355	Times cited	12	Open Access	OpenAccess
Notes				Approved	Most recent IF: 2.355
Call Number	UA @ lucian @ c:irua:155653			Serial	5084
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Author	Chai, Z.-N.; Wang, X.-C.; Yusupov, M.; Zhang, Y.-T.
Title	Unveiling the interaction mechanisms of cold atmospheric plasma and amino acids by machine learning			Type	A1 Journal article
Year	2024	Publication	Plasma processes and polymers	Abbreviated Journal
Volume		Issue		Pages	1-26
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Plasma medicine has attracted tremendous interest in a variety of medical conditions, ranging from wound healing to antimicrobial applications, even in cancer treatment, through the interactions of cold atmospheric plasma (CAP) and various biological tissues directly or indirectly. The underlying mechanisms of CAP treatment are still poorly understood although the oxidative effects of CAP with amino acids, peptides, and proteins have been explored experimentally. In this study, machine learning (ML) technology is introduced to efficiently unveil the interaction mechanisms of amino acids and reactive oxygen species (ROS) in seconds based on the data obtained from the reactive molecular dynamics (MD) simulations, which are performed to probe the interaction of five types of amino acids with various ROS on the timescale of hundreds of picoseconds but with the huge computational load of several days. The oxidative reactions typically start with H-abstraction, and the details of the breaking and formation of chemical bonds are revealed; the modification types, such as nitrosylation, hydroxylation, and carbonylation, can be observed. The dose effects of ROS are also investigated by varying the number of ROS in the simulation box, indicating agreement with the experimental observation. To overcome the limits of timescales and the size of molecular systems in reactive MD simulations, a deep neural network (DNN) with five hidden layers is constructed according to the reaction data and employed to predict the type of oxidative modification and the probability of occurrence only in seconds as the dose of ROS varies. The well-trained DNN can effectively and accurately predict the oxidative processes and productions, which greatly improves the computational efficiency by almost ten orders of magnitude compared with the reactive MD simulation. This study shows the great potential of ML technology to efficiently unveil the underpinning mechanisms in plasma medicine based on the data from reactive MD simulations or experimental measurements. In this study, since reactive molecular dynamics simulation can currently only describe interactions between a few hundred atoms in a few hundred picoseconds, deep neural networks (DNN) are introduced to enhance the simulation results by predicting more data efficiently. image
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	001202061200001	Publication Date	2024-04-15
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850	ISBN		Additional Links	UA library record; WoS full record
Impact Factor	3.5	Times cited		Open Access
Notes				Approved	Most recent IF: 3.5; 2024 IF: 2.846
Call Number	UA @ admin @ c:irua:205512			Serial	9181
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Author	Bogaerts, A.; Gijbels, R.
Title	The ion- and atom-induced secondary electron emission yield: numerical study for the effect of clean and dirty cathode surfaces			Type	A1 Journal article
Year	2002	Publication	Plasma sources science and technology	Abbreviated Journal	Plasma Sources Sci T
Volume	11	Issue		Pages	27-36
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract
Address
Corporate Author				Thesis
Publisher	Institute of Physics	Place of Publication	Bristol	Editor
Language		Wos	000174336300003	Publication Date	2002-08-25
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0963-0252;1361-6595;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	3.302	Times cited	51	Open Access
Notes				Approved	Most recent IF: 3.302; 2002 IF: 1.816
Call Number	UA @ lucian @ c:irua:40184			Serial	1739
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Author	Tinck, S.; Altamirano-Sánchez, E.; De Schepper, P.; Bogaerts, A.
Title	Formation of a nanoscale SiO₂ capping layer on photoresist lines with an Ar/SiCl₄/O₂ inductively coupled plasma : a modeling investigation			Type	A1 Journal article
Year	2014	Publication	Plasma processes and polymers	Abbreviated Journal	Plasma Process Polym
Volume	11	Issue	1	Pages	52-62
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	PECVD of a nanoscale SiO2 capping layer using low pressure SiCl4/O-2/Ar plasmas is numerically investigated. The purpose of this capping layer is to restore photoresist profiles with improved line edge roughness. A 2D plasma and Monte Carlo feature profile model are applied for this purpose. The deposited films are calculated for various operating conditions to obtain a layer with desired shape. An increase in pressure results in more isotropic deposition with a higher deposition rate, while a higher power creates a more anisotropic process. Dilution of the gas mixture with Ar does not result in an identical capping layer shape with a thickness linearly correlated to the dilution. Finally, a substrate bias seems to allow proper control of the vertical deposition rate versus sidewall deposition as desired.
Address
Corporate Author				Thesis
Publisher		Place of Publication	Weinheim	Editor
Language		Wos	000330588800006	Publication Date	2013-11-18
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.846	Times cited	1	Open Access
Notes				Approved	Most recent IF: 2.846; 2014 IF: 2.453
Call Number	UA @ lucian @ c:irua:115735			Serial	1256
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Author	Lin, A.; Truong, B.; Fridman, G.; Friedman, A.A.; Miller, V.
Title	Immune cells enhance selectivity of nanosecond-pulsed DBD plasma against tumor cells			Type	A1 Journal article
Year	2017	Publication	Plasma medicine	Abbreviated Journal
Volume	7	Issue	1	Pages	85-96
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Cancer immunotherapy is a promising strategy that engages the patient's immune system to kill cancer cells selectively while sparing normal tissue. Treatment of macrophages with a nanosecond-pulsed dielectric barrier discharge directly enhanced their cytotoxic activity against tumor cells but not normal cells. These results underscore the clinical potential of plasma for cancer immunotherapy.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos		Publication Date	2017-08-15
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN		ISBN		Additional Links	UA library record
Impact Factor		Times cited		Open Access
Notes				Approved	no
Call Number	UA @ admin @ c:irua:155657			Serial	8058
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Author	Bogaerts, A.; de Bleecker, K.; Georgieva, V.; Kolev, I.; Madani, M.; Neyts, E.
Title	Computer simulations for processing plasmas			Type	A1 Journal article
Year	2006	Publication	Plasma processes and polymers	Abbreviated Journal	Plasma Process Polym
Volume	3	Issue	2	Pages	110-119
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract
Address
Corporate Author				Thesis
Publisher		Place of Publication	Weinheim	Editor
Language		Wos	000235628300003	Publication Date	2006-02-02
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850;1612-8869;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.846	Times cited	8	Open Access
Notes				Approved	Most recent IF: 2.846; 2006 IF: 2.298
Call Number	UA @ lucian @ c:irua:56076			Serial	465
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Author	Truong, B.; Siegert, K.; Lin, A.; Miller, V.; Krebs, F.C.
Title	Apical application of nanosecond-pulsed dielectric barrier discharge plasma causes the basolateral release of adenosine triphosphate as a damage-associated molecular pattern from polarized HaCaT cells			Type	A1 Journal article
Year	2017	Publication	Plasma medicine	Abbreviated Journal
Volume	7	Issue	2	Pages	117-131
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Promising biomedical uses for nonthermal plasma (NTP) in the fields of regenerative medicine, cancer therapy, and vaccine delivery involve the noninvasive application of uniform nonequilibrium plasma (including dielectric barrier discharge plasma) to living skin. Whereas most investigations have focused on achieving desired therapeutic outcomes, fewer studies have examined the mechanisms and pathways by which epithelial cells respond to NTP exposure. Using a transwell apical-basolateral-chambered system to culture the human keratinocyte HaCaT cell line, in vitro experiments were performed to demonstrate the effects of nanosecond-pulsed dielectric barrier discharge (nsDBD) plasma on polarized epithelial cell viability, monolayer permeability, intracellular oxidative stress, and the release of adenosine triphosphate (ATP). Application of nsDBD plasma at 60 Hz or below had minimal or no effect on HaCaT monolayer viability or permeability. nsDBD plasma exposure did, however, result in frequency-dependent reductions in intracellular glutathione (indicating direct induction of oxidative stress by nsDBD plasma) and increased extracellular ATP concentrations in the ba-solateral (subepithelial) media, which are indicators of cellular stress and an NTP-induced inflammatory response. These studies provide new insights into nsDBD plasma-induced inflammation and local innate immune responses initiated by polarized epithelial tissues.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos		Publication Date	2017-02-24
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN		ISBN		Additional Links	UA library record
Impact Factor		Times cited		Open Access
Notes				Approved	no
Call Number	UA @ admin @ c:irua:155656			Serial	7465
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Author	Privat-Maldonado, A.; Gorbanev, Y.; O'Connell, D.; Vann, R.; Chechik, V.; van der Woude, M.W.
Title	Nontarget biomolecules alter macromolecular changes induced by bactericidal low-temperature plasma			Type	A1 Journal article
Year	2018	Publication	IEEE transactions on radiation and plasma medical sciences	Abbreviated Journal
Volume	2	Issue	2	Pages	121-128
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Low-temperature plasmas (LTPs) have a proven bactericidal activity governed by the generated reactive oxygen and nitrogen species (RONS) that target microbial cell components. However, RONS also interact with biomolecules in the environment. Here we assess the impact of these interactions upon exposure of liquid suspensions with variable organic content to an atmospheric-pressure dielectric barrier discharge plasma jet. Salmonella enterica serovar Typhimurium viability in the suspension was reduced in the absence [e. g., phosphate buffered saline (PBS)], but not in the presence of (high) organic content [Dulbecco's Modified Eagle's Medium (DMEM), DMEM supplemented with foetal calf serum, and Lysogeny Broth]. The reduced viability of LTP-treated bacteria in PBS correlated to a loss of membrane integrity, whereas double-strand DNA breaks could not be detected in treated single cells. The lack of bactericidal activity in solutions with high organic content correlated with a relative decrease of center dot OH and O-3/O-2(a(1)Delta g)/O, and an increase of H2O2 and NO2- in the plasma-treated solutions. These results indicate that the redox reactions of LTP-generated RONS with nontarget biomolecules resulted in a RONS composition with reduced bactericidal activity. Therefore, the chemical composition of the bacterial environment should be considered in the development of LTP for antimicrobial treatment, and may affect other biomedical applications as well.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	000456148700007	Publication Date	2017-10-11
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	2469-7311; 2469-7303	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor		Times cited		Open Access
Notes				Approved	no
Call Number	UA @ admin @ c:irua:156820			Serial	8316
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Author	Teodorescu, V.S.; Mihailescu, I.N.; Dinescu, M.; Chitica, N.; Nistor, L.C.; van Landuyt, J.; Barborica, A.
Title	Laser induced phase transition in iron thin films			Type	A1 Journal article
Year	1994	Publication	Journal de physique: 3: applied physics, materials science, fluids, plasma and instrumentation	Abbreviated Journal
Volume	4	Issue		Pages	127-130
Keywords	A1 Journal article; Electron microscopy for materials research (EMAT)
Abstract
Address
Corporate Author				Thesis
Publisher		Place of Publication	Les Ulis	Editor
Language		Wos	A1994NT08700028	Publication Date	2007-07-16
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1155-4339;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor		Times cited	2	Open Access
Notes				Approved	no
Call Number	UA @ lucian @ c:irua:10003			Serial	1787
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Author	Kolev, I.; Bogaerts, A.
Title	PIC – MCC numerical simulation of a DC planar magnetron			Type	A1 Journal article
Year	2006	Publication	Plasma processes and polymers	Abbreviated Journal	Plasma Process Polym
Volume	3	Issue	2	Pages	127-134
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract
Address
Corporate Author				Thesis
Publisher		Place of Publication	Weinheim	Editor
Language		Wos	000235628300005	Publication Date	2006-02-02
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850;1612-8869;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.846	Times cited	27	Open Access
Notes				Approved	Most recent IF: 2.846; 2006 IF: 2.298
Call Number	UA @ lucian @ c:irua:56077			Serial	2621
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Author	Laroussi, M.; Bekeschus, S.; Keidar, M.; Bogaerts, A.; Fridman, A.; Lu, X.; Ostrikov, K.; Hori, M.; Stapelmann, K.; Miller, V.; Reuter, S.; Laux, C.; Mesbah, A.; Walsh, J.; Jiang, C.; Thagard, S.M.; Tanaka, H.; Liu, D.; Yan, D.; Yusupov, M.
Title	Low-Temperature Plasma for Biology, Hygiene, and Medicine: Perspective and Roadmap			Type	A1 Journal article
Year	2022	Publication	IEEE transactions on radiation and plasma medical sciences	Abbreviated Journal	IEEE Trans. Radiat. Plasma Med. Sci.
Volume	6	Issue	2	Pages	127-157
Keywords	A1 Journal article; Engineering sciences. Technology; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Plasma, the fourth and most pervasive state of matter in the visible universe, is a fascinating medium that is connected to the beginning of our universe itself. Man-made plasmas are at the core of many technological advances that include the fabrication of semiconductor devices, which enabled the modern computer and communication revolutions. The introduction of low temperature, atmospheric pressure plasmas to the biomedical field has ushered a new revolution in the healthcare arena that promises to introduce plasma-based therapies to combat some thorny and long-standing medical challenges. This article presents an overview of where research is at today and discusses innovative concepts and approaches to overcome present challenges and take the field to the next level. It is written by a team of experts who took an in-depth look at the various applications of plasma in hygiene, decontamination, and medicine, made critical analysis, and proposed ideas and concepts that should help the research community focus their efforts on clear and practical steps necessary to keep the field advancing for decades to come.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	000750257400005	Publication Date	2021-12-14
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	2469-7311	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor		Times cited		Open Access	OpenAccess
Notes	Research Foundation—Flanders, 1200219N ;			Approved	Most recent IF: NA
Call Number	PLASMANT @ plasmant @c:irua:185875			Serial	6907
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Author	Yan, M.; Bogaerts, A.; Gijbels, R.
Title	Evolution of charged particle densities after laser-induced photodetachment in a strongly electronegative RF discharge			Type	A1 Journal article
Year	2002	Publication	IEEE transactions on plasma science	Abbreviated Journal	Ieee T Plasma Sci
Volume	30	Issue	1	Pages	132-133
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract
Address
Corporate Author				Thesis
Publisher		Place of Publication	New York, N.Y.	Editor
Language		Wos	000175845900065	Publication Date	2002-11-07
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0093-3813;	ISBN		Additional Links	UA library record; WoS full record
Impact Factor	1.052	Times cited		Open Access
Notes				Approved	Most recent IF: 1.052; 2002 IF: 1.170
Call Number	UA @ lucian @ c:irua:40186			Serial	1097
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Author	Yusupov, M.; Neyts, E.C.; Verlackt, C.C.; Khalilov, U.; van Duin, A.C.T.; Bogaerts, A.
Title	Inactivation of the endotoxic biomolecule lipid A by oxygen plasma species : a reactive molecular dynamics study			Type	A1 Journal article
Year	2015	Publication	Plasma processes and polymers	Abbreviated Journal	Plasma Process Polym
Volume	12	Issue	12	Pages	162-171
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Reactive molecular dynamics simulations are performed to study the interaction of reactive oxygen species, such as OH, HO2 and H2O2, with the endotoxic biomolecule lipid A of the gram-negative bacterium Escherichia coli. It is found that the aforementioned plasma species can destroy the lipid A, which consequently results in reducing its toxic activity. All bond dissociation events are initiated by hydrogen-abstraction reactions. However, the mechanisms behind these dissociations are dependent on the impinging plasma species, i.e. a clear difference is observed in the mechanisms upon impact of HO2 radicals and H2O2 molecules on one hand and OH radicals on the other hand. Our simulation results are in good agreement with experimental observations.
Address
Corporate Author				Thesis
Publisher		Place of Publication	Weinheim	Editor
Language		Wos	000350275400005	Publication Date	2014-09-17
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.846	Times cited	18	Open Access
Notes				Approved	Most recent IF: 2.846; 2015 IF: 2.453
Call Number	c:irua:123540			Serial	1589
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Author	Neyts, E.C.
Title	Plasma-Surface Interactions in Plasma Catalysis			Type	A1 Journal article
Year	2016	Publication	Plasma chemistry and plasma processing	Abbreviated Journal	Plasma Chem Plasma P
Volume	36	Issue	36	Pages	185-212
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	In this paper the various elementary plasma—surface interaction processes occurring in plasma catalysis are critically evaluated. Specifically, plasma catalysis at atmospheric pressure is considered. The importance of the various processes is analyzed for the most common plasma catalysis sources, viz. the dielectric barrier discharge and the gliding arc. The role and importance of surface chemical reactions (including adsorption, surface-mediated association and dissociation reactions, and desorption), plasma-induced surface modification, photocatalyst activation, heating, charging, surface discharge formation and electric field enhancement are discussed in the context of plasma catalysis. Numerous examples are provided to demonstrate the importance of the various processes.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos	000370720800011	Publication Date	2015-10-16
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0272-4324	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.355	Times cited	66	Open Access
Notes	The author is indebted to many colleagues for fruitful discussions. In particular discussions with A. Bogaerts (University of Antwerp, Belgium), H.-H. Kim (AIST, Japan), J. C. Whitehead (University of Manchester, UK) and T. Nozaki (Tokyo Institute of Technology, Japan) are greatfully acknowledged and appreciated.			Approved	Most recent IF: 2.355
Call Number	c:irua:130742			Serial	4004
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Author	Bogaerts, A.; Okhrimovskyy, A.; Baguer, N.; Gijbels, R.
Title	Hollow cathode discharges with gas flow: numerical modelling for the effect on the sputtered atoms and the deposition flux			Type	A1 Journal article
Year	2005	Publication	Plasma sources science and technology	Abbreviated Journal	Plasma Sources Sci T
Volume	14	Issue		Pages	191-200
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract
Address
Corporate Author				Thesis
Publisher	Institute of Physics	Place of Publication	Bristol	Editor
Language		Wos	000227652500021	Publication Date	2005-02-05
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0963-0252;1361-6595;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	3.302	Times cited	9	Open Access
Notes				Approved	Most recent IF: 3.302; 2005 IF: 1.798
Call Number	UA @ lucian @ c:irua:50478			Serial	1480
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Author	Fridman, A.; Lin, A.; Miller, V.; Bekeschus, S.; Wende, K.; Weltmann, K.-D.
Title	The plasma treatment unit : an attempt to standardize cold plasma treatment for defined biological effects			Type	A1 Journal article
Year	2018	Publication	Plasma medicine	Abbreviated Journal
Volume	8	Issue	2	Pages	195-201
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Plasma bioscience and medicine are both rapidly growing fields. Their aim is to utilize cold physical plasmas for desired biological outcomes in medicine, biotechnology, agriculture, and general hygienic purposes. Great success has been achieved in many applications with individually designed plasma sources and plasma parameters. Although lab and application-specific tuning of plasmas is a great advantage of this technology, standardized units to define plasma treatments are required to facilitate comparison of the effects found by different researchers who do not use the same plasma sources. By drawing conclusions from over a century of plasma biomedical research, we propose that all researchers adopt the use of a standardized value, the plasma treatment unit (PTU), to describe the biological effects of different cold plasma sources and treatment regimens. It quantifies a key plasma effector in biological systems as an indicator and may provide the foundation for an analogous and clinically relevant unit in the future.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos		Publication Date	2018-06-13
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN		ISBN		Additional Links	UA library record
Impact Factor		Times cited		Open Access	Not_Open_Access
Notes				Approved	Most recent IF: NA
Call Number	UA @ lucian @ c:irua:155652			Serial	5123
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Author	Bogaerts, A.
Title	Comprehensive modelling network for dc glow discharges in argon			Type	A1 Journal article
Year	1999	Publication	Plasma sources science and technology	Abbreviated Journal	Plasma Sources Sci T
Volume	8	Issue		Pages	210-229
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract
Address
Corporate Author				Thesis
Publisher	Institute of Physics	Place of Publication	Bristol	Editor
Language		Wos	000080660600004	Publication Date	2002-08-25
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0963-0252;1361-6595;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	3.302	Times cited	27	Open Access
Notes				Approved	Most recent IF: 3.302; 1999 IF: 2.038
Call Number	UA @ lucian @ c:irua:24129			Serial	451
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Author	Vandenbroucke, A.M.; Aerts, R.; Van Gaens, W.; De Geyter, N.; Leys, C.; Morent, R.; Bogaerts, A.
Title	Modeling and experimental study of trichloroethylene abatement with a negative direct current corona discharge			Type	A1 Journal article
Year	2015	Publication	Plasma chemistry and plasma processing	Abbreviated Journal	Plasma Chem Plasma P
Volume	35	Issue	35	Pages	217-230
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	In this work, we study the abatement of dilute trichloroethylene (TCE) in air with a negative direct current corona discharge. A numerical model is used to theoretically investigate the underlying plasma chemistry for the removal of TCE, and a reaction pathway for the abatement of TCE is proposed. The Cl atom, mainly produced by dissociation of COCl, is one of the controlling species in the TCE destruction chemistry and contributes to the production of chlorine containing by-products. The effect of humidity on the removal efficiency is studied and a good agreement is found between experiments and the model for both dry (5 % relative humidity (RH)) and humid air (50 % RH). An increase of the relative humidity from 5 % to 50 % has a negative effect on the removal efficiency, decreasing by ±15 % in humid air. The main loss reactions for TCE are with ClO·, O· and CHCl2. Finally, the by-products and energy cost of TCE abatement are discussed.
Address
Corporate Author				Thesis
Publisher		Place of Publication	New York	Editor
Language		Wos	000347285800014	Publication Date	2014-09-10
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	0272-4324;1572-8986;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.355	Times cited	9	Open Access
Notes				Approved	Most recent IF: 2.355; 2015 IF: 2.056
Call Number	c:irua:118882			Serial	2108
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Author	Ranieri, P.; Shrivastav, R.; Wang, M.; Lin, A.; Fridman, G.; Fridman, A.A.; Han, L.-H.; Miller, V.
Title	Nanosecond-pulsed dielectric barrier dischargeinduced antitumor effects propagate through depth of tissue via intracellular signaling			Type	A1 Journal article
Year	2017	Publication	Plasma medicine	Abbreviated Journal
Volume	7	Issue	3	Pages	283-297
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	Studies using xenograft mouse models have shown that plasma applied to the skin overlying tumors results in tumor shrinkage. Plasma is considered a nonpenetrating treatment; however, these studies demonstrate plasma effects that occur beyond the postulated depth of physical penetration of plasma components. The present study examines the propagation of plasma effects through a tissue model using three-dimensional, cell-laden extracellular matrices (ECMs). These ECMs are used as barriers against direct plasma penetration. By placing them onto a monolayer of target cancer cells to create an in-vitro analog to in-vivo studies, we distinguished between cellular effects from direct plasma exposure and cellular effects due to cell-to-cell signaling stimulated by plasma. We show that nanosecond-pulsed dielectric barrier discharge plasma treatment applied atop an acellular barrier impedes the externalization of calreticulin (CRT) in the target cells. In contrast, when a barrier is populated with cells, CRT externalization is restored. Thus, we demonstrate that plasma components stimulate signaling among cells embedded in the barrier to transfer plasma effects to the target cells.
Address
Corporate Author				Thesis
Publisher		Place of Publication		Editor
Language		Wos		Publication Date	2017-09-01
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN		ISBN		Additional Links	UA library record
Impact Factor		Times cited		Open Access
Notes				Approved	no
Call Number	UA @ admin @ c:irua:155658			Serial	8293
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Author	Bogaerts, A.; Bultinck, E.; Eckert, M.; Georgieva, V.; Mao, M.; Neyts, E.; Schwaederlé, L.
Title	Computer modeling of plasmas and plasma-surface interactions			Type	A1 Journal article
Year	2009	Publication	Plasma processes and polymers	Abbreviated Journal	Plasma Process Polym
Volume	6	Issue	5	Pages	295-307
Keywords	A1 Journal article; Plasma Lab for Applications in Sustainability and Medicine – Antwerp (PLASMANT)
Abstract	In this paper, an overview is given of different modeling approaches used for describing gas discharge plasmas, as well as plasma-surface interactions. A fluid model is illustrated for describing the detailed plasma chemistry in capacitively coupled rf discharges. The strengths and limitations of Monte Carlo simulations and of a particle-in-cell-Monte Carlo collisions model are explained for a magnetron discharge, whereas the capabilities of a hybrid Monte Carlo-fluid approach are illustrated for a direct current glow discharge used for spectrochemical analysis of materials. Finally, some examples of molecular dynamics simulations, for the purpose of plasma-deposition, are given.
Address
Corporate Author				Thesis
Publisher		Place of Publication	Weinheim	Editor
Language		Wos	000266471800003	Publication Date	2009-04-20
Series Editor		Series Title		Abbreviated Series Title
Series Volume		Series Issue		Edition
ISSN	1612-8850;1612-8869;	ISBN		Additional Links	UA library record; WoS full record; WoS citing articles
Impact Factor	2.846	Times cited	18	Open Access
Notes				Approved	Most recent IF: 2.846; 2009 IF: 4.037
Call Number	UA @ lucian @ c:irua:76833			Serial	461
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