2017
DOI: 10.1039/c7ra01267e
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A critical analysis of the α, β and γ phases in poly(vinylidene fluoride) using FTIR

Abstract: A universal but simple procedure for identifying the α, β and γ phases in PVDF using FTIR is proposed and validated. An integrated quantification methodology for individual β and γ phase in mixed systems is also proposed.

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Cited by 1,124 publications
(936 citation statements)
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References 115 publications
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“…The weaker peak appearing near 2θ = 35° in the aligned fibers corresponds to the (001) reflection of the β phase, and is not observed in the randomly oriented fibers. Lastly, a peak at 2θ = 41°, corresponding to (111) reflections of the ɑ phase appears in both the randomly oriented and aligned fibers . As expected inclusion of TrFE copolymer shifted the β peaks to the left .…”
Section: Resultssupporting
confidence: 59%
“…The weaker peak appearing near 2θ = 35° in the aligned fibers corresponds to the (001) reflection of the β phase, and is not observed in the randomly oriented fibers. Lastly, a peak at 2θ = 41°, corresponding to (111) reflections of the ɑ phase appears in both the randomly oriented and aligned fibers . As expected inclusion of TrFE copolymer shifted the β peaks to the left .…”
Section: Resultssupporting
confidence: 59%
“…Melt crystallization of the blends results in greater crystallinity than seen in as‐spun fibers. Figure S1 of the supporting information shows via infrared spectroscopy that the α crystallographic phase is favored when crystallizing PVDF from the melt …”
Section: Resultsmentioning
confidence: 99%
“…11-13 a Authors to whom correspondence should be addressed: tplei@hqu.edu.cn and cxplum@163.com Electrospinning is a powerful technique for the production of nano/micro scale fibers that have attracted great interest from both academia and industry, because of their unique capacity in solving global issues. 14 Based on past experience on investigations of electrospinning and PVDF polymer, [15][16][17] we demonstrate here for the first time a single-step process to facilely transform candle soots into nanoporous fibers via electrospinning of cocktail of PVDF and candle soots. The specific wettability (hydrophobicity/oleophilicity) of the fibrous membrane is investigated and the superhydrophobic and superoleophilic properties of the membrane are recorded.…”
Section: Introductionmentioning
confidence: 99%