G
Gregor E. Morfill
Researcher at Max Planck Society
Publications - 827
Citations - 38722
Gregor E. Morfill is an academic researcher from Max Planck Society. The author has contributed to research in topics: Plasma & Dusty plasma. The author has an hindex of 90, co-authored 827 publications receiving 35914 citations.
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Plasma medicine: an introductory review
Michael G. Kong,Gmw Gerrit Kroesen,Gregor E. Morfill,Tetyana Nosenko,Tetsuji Shimizu,van J Jan Dijk,Julia L. Zimmermann +6 more
TL;DR: This introductory review on plasma health care is intended to provide the interested reader with a summary of the current status of this emerging field, its scope, and its broad interdisciplinary approach, ranging from plasma physics, chemistry and technology, to microbiology, biochemistry, biophysics, medicine and hygiene.
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Plasma crystal: Coulomb crystallization in a dusty plasma.
TL;DR: A macroscopic Coulomb crystal of solid particles in a plasma has been observed, and strongly coupled plasma theory predicts that the particles should organize in a Coulomb solid, in agreement with the observations.
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Complex (dusty) plasmas: current status, open issues, perspectives
TL;DR: The field of complex (dusty) plasmas is reviewed in this paper, where the major types of experimental complex Plasmas are briefly discussed, including grain charging in different regimes, interaction between charged particles, and momentum exchange between different species.
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Complex plasmas: An interdisciplinary research field
TL;DR: Complex (dusty) plasmas are composed of a weakly ionized gas and charged microparticles and represent the plasma state of soft matter as discussed by the authors, and they can be easily manipulated in different ways, also at the level of individual particles.
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A first prospective randomized controlled trial to decrease bacterial load using cold atmospheric argon plasma on chronic wounds in patients.
Georg Isbary,Gregor E. Morfill,Hans-Ulrich Schmidt,Matthias Georgi,Katrin Ramrath,J. Heinlin,Sigrid Karrer,Michael Landthaler,Tetsuji Shimizu,Bernd Steffes,Wolfram Bunk,Roberto A. Monetti,Julia L. Zimmermann,René Pompl,Wilhelm Stolz +14 more
TL;DR: Cold atmospheric plasma has been shown in vitro to kill a wide range of pathogenic bacteria and is shown to slow healing of chronic wounds.