High frequency capacitively coupled RF plasma discharge effects on the order/disorder structure of PAN-based carbon fiber

High-resolution confocal Raman microscopy was used to investigate the effects of nitrogen plasma on unsized high strength (HS) PAN-based carbon fiber surfaces. The fibers were treated by a high frequency (40.68 MHz) capacitively coupled single RF-PECVD reactor under different processing conditions (...

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Bibliographic Details
Published in:Journal of theoretical and applied physics 2014-06, Vol.8 (2), p.1-8, Article 127
Main Authors: Güngör, Ümmugül E., Bilikmen, Sinan, Akbar, Demiral
Format: Article
Language:English
Subjects:
Applied and Technical Physics
Atomic
Carbon fibers
Condensed Matter Physics
Disorders
Hafnium
High frequencies
Joining
Medical and Radiation Physics
Molecular
Nanoscale Science and Technology
Nitrogen plasma
Optical and Plasma Physics
Order disorder
Physics
Physics and Astronomy
Plasma (physics)
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Summary:High-resolution confocal Raman microscopy was used to investigate the effects of nitrogen plasma on unsized high strength (HS) PAN-based carbon fiber surfaces. The fibers were treated by a high frequency (40.68 MHz) capacitively coupled single RF-PECVD reactor under different processing conditions (exposure times, RF powers and gas pressures). It was found that the order/disorder structure of the treated carbon fiber changed with different processing conditions. At low pressures, the degree of disordered structure increased with HF–RF power and process time. However, at high pressures, high-order structure ( I G / I T = 84.51 ) was observed and almost no observable structural effects appeared at long treatment time. Also, the first-order Raman-band peaks (D and G) of the treated carbon fibers shifted. And, FWHM ( w D / w G ), intensity ( I D / I G ) and D-band relative integrated intensity ( I D / I T ) ratios increased with ordering whereas they decreased with disordering.
ISSN:1735-9325
2251-7227
2251-7235
DOI:10.1007/s40094-014-0127-7