Topography characterization and initial cellular interaction of plasma-based Ar⁺ beam-treated PDMS surfaces
Assuming that the existence of an ion-flow in the plasma volume could strength the surface modifying effect, including its durability, a parallel plate reactor in reactive ion etching mode was employed to obtain surface modified PDMS with improved cellular interaction. The discharge power was varied...
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| Published in: | Journal of applied polymer science Vol. 111; no. 5; pp. 2637 - 2646 |
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| Main Authors: | , , , , , |
| Format: | Journal Article |
| Language: | English |
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| Abstract | Assuming that the existence of an ion-flow in the plasma volume could strength the surface modifying effect, including its durability, a parallel plate reactor in reactive ion etching mode was employed to obtain surface modified PDMS with improved cellular interaction. The discharge power was varied at 100, 1200, and 2500 W to ensure varied ion-flow density. The changes in the surface topography were observed by SEM and AFM, and the surface roughness was characterized by both: mean roughness, Ra, and root-mean-square, Rq. Time dependent water contact angle measurements were performed to control the durability of the hydrophilizing effect. Anisotropic etching, accompanied with decrease of the PDMS surface roughness, was observed up to discharge power of 1200 W that turns in intense isotropic one, accompanied with a sharp increase of the surface roughness over 1200 W, most probably because of arise of reverse sputtered neutrals diffracting the main plasma Ar⁺ flow. Human fibroblasts were applied as an in vitro model to learn more about the initial cellular interaction of the modified surfaces and to identify the optimal treatment conditions. |
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| AbstractList | Assuming that the existence of an ion‐flow in the plasma volume could strength the surface modifying effect, including its durability, a parallel plate reactor in reactive ion etching mode was employed to obtain surface modified PDMS with improved cellular interaction. The discharge power was varied at 100, 1200, and 2500 W to ensure varied ion‐flow density. The changes in the surface topography were observed by SEM and AFM, and the surface roughness was characterized by both: mean roughness,
R
a
, and root‐mean‐square,
R
q
. Time dependent water contact angle measurements were performed to control the durability of the hydrophilizing effect. Anisotropic etching, accompanied with decrease of the PDMS surface roughness, was observed up to discharge power of 1200 W that turns in intense isotropic one, accompanied with a sharp increase of the surface roughness over 1200 W, most probably because of arise of reverse sputtered neutrals diffracting the main plasma Ar
+
flow. Human fibroblasts were applied as an
in vitro
model to learn more about the initial cellular interaction of the modified surfaces and to identify the optimal treatment conditions. © 2008 Wiley Periodicals, Inc. J Appl Polym Sci, 2009 Assuming that the existence of an ion‐flow in the plasma volume could strength the surface modifying effect, including its durability, a parallel plate reactor in reactive ion etching mode was employed to obtain surface modified PDMS with improved cellular interaction. The discharge power was varied at 100, 1200, and 2500 W to ensure varied ion‐flow density. The changes in the surface topography were observed by SEM and AFM, and the surface roughness was characterized by both: mean roughness, Ra, and root‐mean‐square, Rq. Time dependent water contact angle measurements were performed to control the durability of the hydrophilizing effect. Anisotropic etching, accompanied with decrease of the PDMS surface roughness, was observed up to discharge power of 1200 W that turns in intense isotropic one, accompanied with a sharp increase of the surface roughness over 1200 W, most probably because of arise of reverse sputtered neutrals diffracting the main plasma Ar+ flow. Human fibroblasts were applied as an in vitro model to learn more about the initial cellular interaction of the modified surfaces and to identify the optimal treatment conditions. © 2008 Wiley Periodicals, Inc. J Appl Polym Sci, 2009 Assuming that the existence of an ion-flow in the plasma volume could strength the surface modifying effect, including its durability, a parallel plate reactor in reactive ion etching mode was employed to obtain surface modified PDMS with improved cellular interaction. The discharge power was varied at 100, 1200, and 2500 W to ensure varied ion-flow density. The changes in the surface topography were observed by SEM and AFM, and the surface roughness was characterized by both: mean roughness, Ra, and root-mean-square, Rq. Time dependent water contact angle measurements were performed to control the durability of the hydrophilizing effect. Anisotropic etching, accompanied with decrease of the PDMS surface roughness, was observed up to discharge power of 1200 W that turns in intense isotropic one, accompanied with a sharp increase of the surface roughness over 1200 W, most probably because of arise of reverse sputtered neutrals diffracting the main plasma Ar⁺ flow. Human fibroblasts were applied as an in vitro model to learn more about the initial cellular interaction of the modified surfaces and to identify the optimal treatment conditions. Assuming that the existence of an ion-flow in the plasma volume could strength the surface modifying effect, including its durability, a parallel plate reactor in reactive ion etching mode was employed to obtain surface modified PDMS with improved cellular interaction. The discharge power was varied at 100, 1200, and 2500 W to ensure varied ion-flow density. The changes in the surface topography were observed by SEM and AFM, and the surface roughness was characterized by both: mean roughness, Ra, and root-mean-square, Rq. Time dependent water contact angle measurements were performed to control the durability of the hydrophilizing effect. Anisotropic etching, accompanied with decrease of the PDMS surface roughness, was observed up to discharge power of 1200 W that turns in intense isotropic one, accompanied with a sharp increase of the surface roughness over 1200 W, most probably because of arise of reverse sputtered neutrals diffracting the main plasma Ar+ flow. Human fibroblasts were applied as an in vitro model to learn more about the initial cellular interaction of the modified surfaces and to identify the optimal treatment conditions. |
| Author | Altankov, G. Dineff, P. Keranov, I. Kostadinova, A. Vladkova, T. G. Minchev, M. |
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| Cites_doi | 10.1016/0142-9612(95)92126-Q 10.1002/(SICI)1099-0518(19960115)34:1<141::AID-POLA15>3.0.CO;2-L 10.1016/S0927-796X(02)00004-9 10.1002/jbm.a.10424 10.1038/sj.jidsymp.5650005 10.1016/0368-2048(95)02665-7 10.1163/156856299X00838 10.1021/la025800x 10.1002/(SICI)1097-4636(199603)30:3<385::AID-JBM13>3.0.CO;2-J 10.1016/0167-5729(96)80003-3 10.1016/j.biomaterials.2003.09.023 10.1002/app.1990.070390712 10.1163/156856296X00417 10.1002/masy.19981300128 10.1080/0021846708544579 10.1163/156856295X00337 10.1021/la001321r 10.1002/pi.783 10.1007/BF00120366 10.1021/ie50660a008 10.1016/j.nimb.2005.04.040 10.1021/i560094a026 10.1016/0021-9797(90)90038-P |
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| Keywords | Cell proliferation Biological properties Dimethylsiloxane polymer Roughness AFM Durability Surface topography Experimental study Property processing relationship Argon ion Surface treatment Structure processing relationship hydrophilic polymers Reactive ion etching Wettability Cold plasma Cell adhesion Surface properties Biocompatibility Biomaterial nanolayers Fibroblast polisiloxanes |
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| SubjectTerms | AFM Applied sciences Biological and medical sciences Coating, metallization, dyeing cold plasma Exact sciences and technology hydrophilic polymers Machinery and processing Medical sciences nanolayers Plastics polisiloxanes Polymer industry, paints, wood Surgery (general aspects). Transplantations, organ and tissue grafts. Graft diseases Technology of polymers Technology. Biomaterials. Equipments |
| Title | Topography characterization and initial cellular interaction of plasma-based Ar⁺ beam-treated PDMS surfaces |
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