Analysis of chemical polymerization between functionalized MWCNT and poly(furfuryl alcohol) composite
Elilton Rodrigues Edwards; Silvia Sizuka Oishi; Edson Cocchieri Botelho
Abstract
Keywords
References
Gandini, A. (2008). Polymers from renewable resources: a challenge for the future of macromolecular materials.
Alimukhamedov, M. G., & Magrupov, F. A. (2007). Kinetics of homopolycondensation of furfuryl alcohol.
Wang, H., & Yao, J. (2006). Use of poly(furfuryl alcohol) in the fabrication of nanostructured carbons and nanocomposites.
Men, X. H., Zhang, Z. Z., Song, H. J., Wang, K., & Jiang, W. (2008). Functionalization of carbon nanotubes to improve the tribological properties of poly(furfurylalcohol) composite coatings.
Xie, X. L., Mai, Y. W., & Zhou, X. P. (2006). Dispersion and alignment of carbon nanotubes in polymer matrix: a review.
Ma, P. C., Siddiquia, N. A., Naromb, G., & Kima, J. K. (2010). Dispersion and functionalization of carbon nanotubes for polymer-based nanocomposites: a review.
Choura, M., Belgacem, N. M., & Gandini, A. (1996). Acid-catalyzed polycondensation of furfuryl alcohol: mechanisms of chromophore formation and cross-linking.
Bertarione, S., Bonino, F., Cesano, F., Damin, A., Scarano, D., & Zecchina, A. (2008). Furfuryl alcohol polymerization in H-Y confined spaces: reaction mechanism and structure of carbocationic intermediates.
Zhang, S., & Solomon, D. H. (1997). The reaction of furfuryl alcohol resins with hexamethylenetetramine: a 13C and 15N high-resolution solid-state NMR study.
González, R., Figuero, J. M., & González, H. (2002). Furfuryl alcohol polymerisation by iodine in methylene chloride.
Antunes, E. F., Almeida, E. C., Rosa, C. B. F., Medeiros, L. I., Pardini, L. C., Massi, M., & Corat, E. J. (2010). Thermal annealing and electrochemical purification of multi walled carbon nanotubes produced by camphor/ferrocene mixtures.
Datsyuk, V., Kalyva, M., Papagelis, K., Parthenios, J., Tasis, D., Siokou, A., Kallitsis, I., & Galiotis, C. (2008). Chemical oxidation of multiwalled carbon nanotubes.
Edwards, E. R., Antunes, E. F., Botelho, E. C., Baldan, M. R., & Corat, E. J. (2011). Evaluation of residual iron in carbon nanotubes purified by acid treatments.
Bower, C., Kleinhammes, A., Wu, Y., & Zhou, O. (1998). Intercalation and partial exfoliation of single-walled carbon nanotubes by nitric acid.
Gonzalez, R., Figueroa, J. M., & Gonzalez, H. (2001). Furfuryl alcohol polymerization by iodine in methylene chloride.
Bertarione, S., Bonino, F., Cesano, F., Jain, E., Zanetti, M., Scarano, D., & Zecchina, A. (2009). Micro-FTIR and micro-raman studies of a carbon film prepared from furfuryl alcohol polymerization.
Shindo, A., & Izumino, K. (1994). Structural variation during pyrolysis of furfuryl alcohol and furfural-furfuryl alcohol resins.
Oishi, S. S., Rezende, M. C., Origo, F. D., Damião, A. J., & Botelho, E. C. (2013). Viscosity, pH, and moisture effect in the porosity of poly(furfuryl alcohol).
Barsberg, S., & Thygesen, L. G. (2009). Poly(furfuryl alcohol) formation in neat furfuryl alcohol and in cymene studied by ATR-IR spectroscopy and density functional theory (B3LYP) prediction of vibrational bands.
Larciprete, R., Gardonio, S., Petaccia, L., & Lizzit, S. (2009). Atomic oxygen functionalization of double walled carbon nanotubes.
Kónya, Z., Vesselényi, I., Kiss, J., Farkas, A., Oszkó, A., & Kiricsi, I. (2004). XPS study of multiwall carbon nanotube synthesis on Ni-, V-, and Ni, V-ZSM-5 catalysts.
Shulga, Y. M., Tien, T. C., Huang, C. C., Lo, S. C., Muradyan, V. E., Polyakova, N. V., Ling, Y. C., Loutfy, R. O., & Moravsky, A. P. (2007). XPS study of fluorinated carbon multi-walled nanotubes.
Maruyama, T., Bang, H., Fujita, N., Kawamura, Y., Naritsuka, S., & Kusunoki, M. (2007). STM and XPS studies of early stages of carbon nanotube growth by surface decomposition of 6H–SiC(000-1) under various oxygen pressures.
Naeimi, H., Mohajeri, A., Moradi, L., & Rashidi, A. M. (2009). Efficient and facile one pot carboxylation of multi-walled carbon nanotubes by using oxidation with ozone under mild conditions.