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Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps

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Zeitschriftentitel: Applied Sciences
Personen und Körperschaften: Foertsch, Tobias C., Davis, Alex T., Popov, Roman, von Bojničić-Kninski, Clemens, Held, Felix E., Tsogoeva, Svetlana B., Loeffler, Felix F., Nesterov-Mueller, Alexander
In: Applied Sciences, 9, 2019, 7, S. 1303
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
Fluid Flow and Transfer Processes
Computer Science Applications
Process Chemistry and Technology
General Engineering
Instrumentation
General Materials Science
author_facet Foertsch, Tobias C.
Davis, Alex T.
Popov, Roman
von Bojničić-Kninski, Clemens
Held, Felix E.
Tsogoeva, Svetlana B.
Loeffler, Felix F.
Nesterov-Mueller, Alexander
Foertsch, Tobias C.
Davis, Alex T.
Popov, Roman
von Bojničić-Kninski, Clemens
Held, Felix E.
Tsogoeva, Svetlana B.
Loeffler, Felix F.
Nesterov-Mueller, Alexander
author Foertsch, Tobias C.
Davis, Alex T.
Popov, Roman
von Bojničić-Kninski, Clemens
Held, Felix E.
Tsogoeva, Svetlana B.
Loeffler, Felix F.
Nesterov-Mueller, Alexander
spellingShingle Foertsch, Tobias C.
Davis, Alex T.
Popov, Roman
von Bojničić-Kninski, Clemens
Held, Felix E.
Tsogoeva, Svetlana B.
Loeffler, Felix F.
Nesterov-Mueller, Alexander
Applied Sciences
Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
Fluid Flow and Transfer Processes
Computer Science Applications
Process Chemistry and Technology
General Engineering
Instrumentation
General Materials Science
author_sort foertsch, tobias c.
spelling Foertsch, Tobias C. Davis, Alex T. Popov, Roman von Bojničić-Kninski, Clemens Held, Felix E. Tsogoeva, Svetlana B. Loeffler, Felix F. Nesterov-Mueller, Alexander 2076-3417 MDPI AG Fluid Flow and Transfer Processes Computer Science Applications Process Chemistry and Technology General Engineering Instrumentation General Materials Science http://dx.doi.org/10.3390/app9071303 <jats:p>We have observed the concentric deposition patterns of small molecules transferred by means of laser-induced forward transfer (LIFT). The patterns comprised different parts whose presence changed with the experimental constraints in a mode-like fashion. In experiments, we studied this previously unknown phenomenon and derived model assumptions for its emergence. We identified aerosol micro-flow and geometric confinement as the mechanism behind the mass transfer and the cause of the concentric patterns. We validated our model using a simulation.</jats:p> Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps Applied Sciences
doi_str_mv 10.3390/app9071303
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title Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_unstemmed Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_full Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_fullStr Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_full_unstemmed Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_short Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_sort spatial modes of laser-induced mass transfer in micro-gaps
topic Fluid Flow and Transfer Processes
Computer Science Applications
Process Chemistry and Technology
General Engineering
Instrumentation
General Materials Science
url http://dx.doi.org/10.3390/app9071303
publishDate 2019
physical 1303
description <jats:p>We have observed the concentric deposition patterns of small molecules transferred by means of laser-induced forward transfer (LIFT). The patterns comprised different parts whose presence changed with the experimental constraints in a mode-like fashion. In experiments, we studied this previously unknown phenomenon and derived model assumptions for its emergence. We identified aerosol micro-flow and geometric confinement as the mechanism behind the mass transfer and the cause of the concentric patterns. We validated our model using a simulation.</jats:p>
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author Foertsch, Tobias C., Davis, Alex T., Popov, Roman, von Bojničić-Kninski, Clemens, Held, Felix E., Tsogoeva, Svetlana B., Loeffler, Felix F., Nesterov-Mueller, Alexander
author_facet Foertsch, Tobias C., Davis, Alex T., Popov, Roman, von Bojničić-Kninski, Clemens, Held, Felix E., Tsogoeva, Svetlana B., Loeffler, Felix F., Nesterov-Mueller, Alexander, Foertsch, Tobias C., Davis, Alex T., Popov, Roman, von Bojničić-Kninski, Clemens, Held, Felix E., Tsogoeva, Svetlana B., Loeffler, Felix F., Nesterov-Mueller, Alexander
author_sort foertsch, tobias c.
container_issue 7
container_start_page 0
container_title Applied Sciences
container_volume 9
description <jats:p>We have observed the concentric deposition patterns of small molecules transferred by means of laser-induced forward transfer (LIFT). The patterns comprised different parts whose presence changed with the experimental constraints in a mode-like fashion. In experiments, we studied this previously unknown phenomenon and derived model assumptions for its emergence. We identified aerosol micro-flow and geometric confinement as the mechanism behind the mass transfer and the cause of the concentric patterns. We validated our model using a simulation.</jats:p>
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match_str foertsch2019spatialmodesoflaserinducedmasstransferinmicrogaps
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physical 1303
publishDate 2019
publishDateSort 2019
publisher MDPI AG
record_format ai
recordtype ai
series Applied Sciences
source_id 49
spelling Foertsch, Tobias C. Davis, Alex T. Popov, Roman von Bojničić-Kninski, Clemens Held, Felix E. Tsogoeva, Svetlana B. Loeffler, Felix F. Nesterov-Mueller, Alexander 2076-3417 MDPI AG Fluid Flow and Transfer Processes Computer Science Applications Process Chemistry and Technology General Engineering Instrumentation General Materials Science http://dx.doi.org/10.3390/app9071303 <jats:p>We have observed the concentric deposition patterns of small molecules transferred by means of laser-induced forward transfer (LIFT). The patterns comprised different parts whose presence changed with the experimental constraints in a mode-like fashion. In experiments, we studied this previously unknown phenomenon and derived model assumptions for its emergence. We identified aerosol micro-flow and geometric confinement as the mechanism behind the mass transfer and the cause of the concentric patterns. We validated our model using a simulation.</jats:p> Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps Applied Sciences
spellingShingle Foertsch, Tobias C., Davis, Alex T., Popov, Roman, von Bojničić-Kninski, Clemens, Held, Felix E., Tsogoeva, Svetlana B., Loeffler, Felix F., Nesterov-Mueller, Alexander, Applied Sciences, Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps, Fluid Flow and Transfer Processes, Computer Science Applications, Process Chemistry and Technology, General Engineering, Instrumentation, General Materials Science
title Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_full Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_fullStr Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_full_unstemmed Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_short Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
title_sort spatial modes of laser-induced mass transfer in micro-gaps
title_unstemmed Spatial Modes of Laser-Induced Mass Transfer in Micro-Gaps
topic Fluid Flow and Transfer Processes, Computer Science Applications, Process Chemistry and Technology, General Engineering, Instrumentation, General Materials Science
url http://dx.doi.org/10.3390/app9071303