2019
DOI: 10.1002/ppap.201900174
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Insights into plasma‐assisted polymerization at atmospheric pressure by spectroscopic diagnostics

Abstract: In the present work, a polydiagnostic study of an atmospheric pressure plasma jet specifically designed for the deposition of coatings by using an Ar/tetraethyl orthosilicate (TEOS) mixture is undertaken. Both passive and active diagnostic methods are utilized to shed light on the complexity of gas-phase mechanisms of precursor fragmentation. A detailed characterization is performed by (fast imaging) optical emission spectroscopy (OES) to clarify the spatial-temporal behavior of excited species. The influence … Show more

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Cited by 13 publications
(27 citation statements)
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“…The discharge appears in a form of numerous narrow filaments (visible under high‐resolution imaging) combined in a strong filamentary jet, propagating from the tip of the nozzle directly to the target. [ 12 ] As reported elsewhere, the discharge evolution along the voltage phase has a strong impact on the electron density, gas temperature, and excited species production in Ar/TEOS plasmas. [ 12 ] Moreover, TEOS fragmentation is known to be governed by electron impact reactions as well as by collisions with Ar metastables (Ar m ), whose formation is strongly influenced by the pulsed discharge dynamics.…”
Section: Resultsmentioning
confidence: 86%
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“…The discharge appears in a form of numerous narrow filaments (visible under high‐resolution imaging) combined in a strong filamentary jet, propagating from the tip of the nozzle directly to the target. [ 12 ] As reported elsewhere, the discharge evolution along the voltage phase has a strong impact on the electron density, gas temperature, and excited species production in Ar/TEOS plasmas. [ 12 ] Moreover, TEOS fragmentation is known to be governed by electron impact reactions as well as by collisions with Ar metastables (Ar m ), whose formation is strongly influenced by the pulsed discharge dynamics.…”
Section: Resultsmentioning
confidence: 86%
“…[ 12 ] As reported elsewhere, the discharge evolution along the voltage phase has a strong impact on the electron density, gas temperature, and excited species production in Ar/TEOS plasmas. [ 12 ] Moreover, TEOS fragmentation is known to be governed by electron impact reactions as well as by collisions with Ar metastables (Ar m ), whose formation is strongly influenced by the pulsed discharge dynamics. Taking this into account, three characteristic time delays, namely, at 2, 22, and 42 µs, have been considered in regard to the positive voltage peak position, defined as the time zero.…”
Section: Resultsmentioning
confidence: 91%
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