1996
DOI: 10.1002/(sici)1099-0488(19960115)34:1<113::aid-polb9>3.0.co;2-y
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Zone-resolved mass spectroscopic study on RF plasma polymerization of styrene

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Cited by 13 publications
(12 citation statements)
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“…Since our FTIR and XPS analyses cannot distinguish between cumulative aromatic rings or substituted benzene rings in our films, time-of-flight (TOF) SIMS spectra were obtained on films deposited from 10/990 pulsed benzene and HFB plasmas (Figure ). Previous SIMS studies of polystyrene (PS) show the dominant peak in the positive ion spectrum is the C 7 H 7 + ion ( m / z = 91), which is assigned as the cyclic tropylium ion, I . , This is also the strongest peak in the SIMS data for our pulsed benzene films. There is, however, a strong C 8 H 9 + signal ( m / z = 105) in our results relative to conventional polystyrene. , This peak is generally assigned to the structure of the styrene repeat unit.…”
Section: Resultsmentioning
confidence: 58%
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“…Since our FTIR and XPS analyses cannot distinguish between cumulative aromatic rings or substituted benzene rings in our films, time-of-flight (TOF) SIMS spectra were obtained on films deposited from 10/990 pulsed benzene and HFB plasmas (Figure ). Previous SIMS studies of polystyrene (PS) show the dominant peak in the positive ion spectrum is the C 7 H 7 + ion ( m / z = 91), which is assigned as the cyclic tropylium ion, I . , This is also the strongest peak in the SIMS data for our pulsed benzene films. There is, however, a strong C 8 H 9 + signal ( m / z = 105) in our results relative to conventional polystyrene. , This peak is generally assigned to the structure of the styrene repeat unit.…”
Section: Resultsmentioning
confidence: 58%
“…Previous SIMS studies of polystyrene (PS) show the dominant peak in the positive ion spectrum is the C 7 H 7 + ion ( m / z = 91), which is assigned as the cyclic tropylium ion, I . , This is also the strongest peak in the SIMS data for our pulsed benzene films. There is, however, a strong C 8 H 9 + signal ( m / z = 105) in our results relative to conventional polystyrene. , This peak is generally assigned to the structure of the styrene repeat unit.
7 Static SIMS positive-ion spectra of (a) a film deposited from a 10/990 pulsed C 6 H 6 plasma and (b) a film deposited from a 10/990 pulsed C 6 F 6 plasma.
…”
Section: Resultsmentioning
confidence: 58%
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“…In a plasma polymerization process, the chemical structure of the plasma polymer can be altered by the selection of important parameters, among them being discharge power, gas flow‐rate, pressure, duty cycle, and reactor geometry 3. Plasma polymerization of styrene1,4–10 and plasma surface modification of polystyrene11–13 have been studied several times. However, most of the studies were performed after exposing the samples to air before analysis.…”
Section: Introductionmentioning
confidence: 99%
“…Two previous reports describe the mass spectrometry of plasmas of styrene. 15,16 In neither of these studies were ions of m/z greater than that of styrene (m/z \ 104) detected and no distinction was made between positively charged and neutral species in the plasma. The work presented here includes mass spectra recorded up to m/z 300 and the experimental conÐguration used allows distinction between positive and neutral species in the plasma.…”
mentioning
confidence: 95%