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Download scientific diagram | FTIR spectra of as-spun PCS fibers (PCS fiber), PCS fibers iodine-cured in air (curing), and PCS/Si(O)C fibers pyrolyzed at 300–1400 °C after curing. Peak assignments were based on the literature [14, 15, 17, 19, 31–33, 35–39]. Note that the noise-like peaks (which intermittently appeared) at 650–700, 1350–1750, 2300–2350, and 3550–3950 cm⁻¹ are attributed to H2O and CO2 in the atmosphere [40] from publication: Structural Evolution of Silicon Carbide Phase from the Polycarbosilane Cured with Iodine: NMR Study | The structural evolution of silicon carbide phase from polycarbosilane fibers cured with iodine in air was investigated using nuclear magnetic resonance (NMR) together with in situ gas analysis up to 1400 °C by thermogravimetry coupled with mass spectroscopy (TG-MS). The | Silicon Carbide, Iodine and Nuclear Magnetic Resonance | ResearchGate, the professional network for scientists.
Raman Spectra of (a) Zr(acac)4 (b) PCS (c) PZrCS-1 (d) PZrCS-3 and (e)
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Journal of the Korean Ceramic Society
FTIR spectra of as-spun PCS fibers (PCS fiber), PCS fibers iodine-cured
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Polycrystalline Nanograin Formation in Uniform-Sized Silicon Carbide Fibers Derived from Aluminum-Containing Polycarbosilane
XRD patterns of Zr(acac)4heat treated at different temperatures [(a)
Junsung HONG, Associate Engineer/Scientist, Doctor of Philosophy, Phillips 66, Houston
Dong-Geun Shin's research works Korean Institute of Ceramic Engineering and Technology, Seoul (KICET) and other places
Melt-spinning and the thermal decomposition of mixed polymers containing polysilsesquioxane and polycarbosilane
Elemental and structural evolution of polymer-derived SiC fibers fabricated via solution blend and iodine curing methods