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EFFECT OF CHEMICAL MODIFICATION OF MULTIWALL CARBON NANOTUBES ON THE PROPERTIES OF POLY(LACTIC ACID) COMPOSITE FILMS: SYNTHESIS AND CHARACTERIZATION

Year 2024, Volume: 12 Issue: 3, 608 - 629, 01.09.2024
https://doi.org/10.36306/konjes.1417602

Abstract

To enhance the properties of poly(lactic acid) (PLA) composite films, unmodified (MWCNT) and modified multiwall carbon nanotubes (MWCNT-COOH, MWCNT-OH, and MA-g-MWCNT) were incorporated into the polymer matrix followed by the solvent casting method. The success of the modification of MWCNT with maleic anhydride (MA) was verified by absorption transmission reflectance spectroscopy (ATR). The fabricated nanocomposite films were analyzed by Fourier transform infrared (FT-IR) spectroscopy, thermal analyses, atomic force microscopy (AFM), contact angle measurements, dynamic mechanical analysis (DMA), and electrical conductivity tests. ATR spectra showed that MA was covalently grafted to the surface of the MWCNT, which was well dispersed and homogenously incorporated in the PLA matrix. The results of the thermal degradation demonstrated that the degradation value of the film increased from 328.91oC to 347oC with the addition of 0.5 wt% MA-g-MWCNT. Additionally, the MWCNT-OH/PLA films illustrated strongly hydrophilic nature due to the –OH groups. The surface resistance of 3 wt% of the MWCNT-COOH/PLA nanocomposite film decreased from 2.56x109 to 2.42x103 Ω (by 106 order). Therefore, the properties of PLA were increased with the addition of functionalized MWCNTs, which can be used for different applications such as biomedical, food packaging, and electronics.

Thanks

The authors would like to thank Roketsan A.S. for the thermogravimetric analysis.

References

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  • R. Scaffaro, F. Lopresti, A. Sutera, L. Botta, R. M. Fontana, and G. Gallo, “Plasma modified PLA electrospun membranes for actinorhodin production intensification in Streptomyces coelicolor immobilized-cell cultivations”, Colloids and Surfaces B: Biointerfaces, vol. 157, pp. 233-241, 2017.
  • Y. Zare, H. Garmabi, and K. Y. Rhee, “Structural and phase separation characterization of poly (lactic acid)/poly (ethylene oxide)/carbon nanotube nanocomposites by rheological examinations”, Composites Part B: Engineering, vol. 144, pp. 1-10, 2018.
  • H. M. Alghamdi, M. M. Abutalib, A. Rajeh, M. A. Mannaa, O. Nur, and E. M. Abdelrazek, “Effect of the Fe2O3/TiO2 Nanoparticles on the Structural, Mechanical, Electrical Properties and Antibacterial Activity of the Biodegradable Chitosan/Polyvinyl Alcohol Blend for Food Packaging”, Journal of Polymers and the Environment, vol. 30, no. 9, pp. 3865–3874, 2022.
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  • B. W. Chieng, N. A. Ibrahim, N. A., W. M. Z. Wan Yunus, M. Z. Hussein, Y. Y. Then, and Y. Y. Loo, “Effects of graphene nanoplatelets and reduced graphene oxide on poly (lactic acid) and plasticized poly (lactic acid): A comparative study”, Polymers, vol. 6, no. 8, pp. 2232-2246, 2014.
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  • S. W. Ko, M. K. Hong, B. J. Park, R. K. Gupta, H. J. Choi, and S. N. Bhattacharya, “Morphological and rheological characterization of multi-walled carbon nanotube/PLA/PBAT blend nanocomposites”, Polymer Bulletin, vol. 63, pp. 125-134, 2009.
  • H. Y. Yu, Z. Y. Qin, B. Sun, X. G. Yang, and J. M. Yao, “Reinforcement of transparent poly (3-hydroxybutyrate-co-3-hydroxyvalerate) by incorporation of functionalized carbon nanotubes as a novel bionanocomposite for food packaging”, Composites Science and Technology, vol. 94, pp. 96-104, 2014.
  • P. K. Tripathi, S. Durbach, and N. J. Coville, “Synthesis of multi-walled carbon nanotubes from plastic waste using a stainless-steel CVD reactor as catalyst”, Nanomaterials, vol. 7, no. 10, pp. 284-301, 2017.
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  • P. G. Seligra, F. Nuevo, M. Lamanna, and L. Famá, “Covalent grafting of carbon nanotubes to PLA in order to improve compatibility”, Composites Part B: Engineering, vol. 46, pp. 61-68, 2013.
  • Y. Zhou, L. Lei, B. Yang, J. Li, and J. Ren, “Preparation and characterization of polylactic acid (PLA) carbon nanotube nanocomposites”, Polymer Testing, vol. 68, pp. 34-38, 2018.
  • G. E. A. Verginio, T. L. D. A. Montanheiro, L. S. Montagna, J. Marini, and F. R. Passador, “Effectiveness of the preparation of maleic anhydride grafted poly (lactic acid) by reactive processing for poly (lactic acid)/carbon nanotubes nanocomposites”, Journal of Applied Polymer Science, vol. 138, no. 12, pp. 50087, 2021.
  • N. F. Braga, H. M. Zaggo, T. L. Montanheiro, and F. R. Passador, “Preparation of maleic anhydride grafted poly (trimethylene terephthalate) (PTT-g-MA) by reactive extrusion processing”, Journal of Manufacturing and Materials Processing, vol. 3, no. 2, pp. 37, 2019.
  • Y. Y. Lu, H. Li, and H. Z. Liu, “Maleic anhydride functionalization of multi-walled carbon nanotubes by the electron beam irradiation in the liquid media”, Physica E: Low-dimensional Systems and Nanostructures, vol. 43, no. 1, pp. 510-514, 2019.
  • C. Y. Hong, Y. Z. You, and C. Y. Pan, “A new approach to functionalize multi-walled carbon nanotubes by the use of functional polymers”, Polymer, vol. 47, no. 12, pp. 4300-4309, 2006.
  • Y. L. Huang, S. M. Yuen, C. C. M. Ma, C. Y. Chuang, K. C. Yu, C. C. Teng, H. W. Tien, Y. C. Chiu, S. Y. Wu, S. H. Liao, and F. B. Weng, “Morphological, electrical, electromagnetic interference (EMI) shielding, and tribological properties of functionalized multi-walled carbon nanotube/poly methyl methacrylate (PMMA) composites”, Composites Science and Technology, vol. 69, no. 11-12, pp. 1991-1996, 2009.
  • H. L. Wu, C. H. Wang, C. C. M. Ma, Y. C. Chiu, M. T. Chiang, and C. L. Chiang, “Preparations and properties of maleic acid and maleic anhydride functionalized multiwall carbon nanotube/poly (urea urethane) nanocomposites”, Composites Science and Technology, vol. 67, no. 9, pp. 1854-1860, 2017.
  • G. X. Chen, H. S. Kim, B. H. Park, and J. S. Yoon, “Controlled functionalization of multiwalled carbon nanotubes with various molecular-weight poly (L-lactic acid)”, The Journal of Physical Chemistry B, vol. 109, no. 47, pp. 22237-22243, 2005.
  • Y. Zhou, L. Lei, B. Yang, J. Li, and J. Ren, “Preparation and characterization of polylactic acid (PLA) carbon nanotube nanocomposites”, Polymer Testing, vol. 68, pp. 34-38, 2018.
  • Q. Zhang, H. Quan, J. Liu, D. Gao, and S. Zhang, China Synthetic Resin and Plastics, vol. 39, pp. 5, 2022. G. Urtekin and A. Aytac, “The effects of multi-walled carbon nanotube additives with different functionalities on the properties of polycarbonate/poly (lactic acid) blend”, Journal of Polymer Research, vol. 28, pp. 1, 2021.
  • C. F. Kuan, H. C. Kuan, C. C. M. Ma, and C. H. Chen, “Mechanical and electrical properties of multi-wall carbon nanotube/poly (lactic acid) composites”, Journal of Physics and Chemistry of Solids, vol. 69, no. 5-6, pp. 1395-1398, 2008.
  • Y. Zare and K. Y. Rhee, “Formulation of tunneling resistance between neighboring carbon nanotubes in polymer nanocomposites”, Engineering Science and Technology, an International Journal, vol. 24, no. 3, pp. 605-610, 2021.
  • N. Nakayama and T. Hayashi, “Preparation and characterization of poly (l-lactic acid)/TiO2 nanoparticle nanocomposite films with high transparency and efficient photodegradability”, Polymer Degradation and Stability, vol. 92, no. 7, pp. 1255-1264, 2007.
  • P. Pötschke, S. M. Dudkin, and I. Alig, “Dielectric spectroscopy on melt processed polycarbonate—multiwalled carbon nanotube composites”, Polymer, vol. 44, no. 17, pp. 5023-5030, 2003.
  • N. G. Sahoo, S. Rana, J. W. Cho, L. Li, and S. H. Chan, “Polymer nanocomposites based on functionalized carbon nanotubes”, Progress in Polymer Science, vol. 35, no. 7, pp. 837-867, 2010.
  • B. V. Basheer, J. J. George, S. Siengchin, and J. Parameswaranpillai, “Polymer grafted carbon nanotubes—Synthesis, properties, and applications: A review”, Nano-Structures & Nano-Objects, vol. 22, pp. 100429, 2020.
  • K. Chrissafis, “Detail kinetic analysis of the thermal decomposition of PLA with oxidized multi-walled carbon nanotubes”, Thermochimica Acta, vol. 511, no. 1-2, pp. 163-167, 2010.
  • C. S. Wu and H. T. Liao, “Study on the preparation and characterization of biodegradable polylactide/multi-walled carbon nanotubes nanocomposites”, Polymer, vol. 48, no. 15, pp. 4449-4458, 2007.
Year 2024, Volume: 12 Issue: 3, 608 - 629, 01.09.2024
https://doi.org/10.36306/konjes.1417602

Abstract

References

  • C. S. Wu and H. T. Liao, “Study on the preparation and characterization of biodegradable polylactide/multi-walled carbon nanotubes nanocomposites”, Polymer, vol. 48, no. 15, pp. 4449-4458, 2007.
  • S. Azizi, M. Azizi, and M. Sabetzadeh, “The role of multiwalled carbon nanotubes in the mechanical, thermal, rheological, and electrical properties of PP/PLA/MWCNTs nanocomposites”, Journal of Composites Science, vol. 3, no. 3, pp. 64-79, 2019.
  • R. Scaffaro, F. Lopresti, A. Sutera, L. Botta, R. M. Fontana, and G. Gallo, “Plasma modified PLA electrospun membranes for actinorhodin production intensification in Streptomyces coelicolor immobilized-cell cultivations”, Colloids and Surfaces B: Biointerfaces, vol. 157, pp. 233-241, 2017.
  • Y. Zare, H. Garmabi, and K. Y. Rhee, “Structural and phase separation characterization of poly (lactic acid)/poly (ethylene oxide)/carbon nanotube nanocomposites by rheological examinations”, Composites Part B: Engineering, vol. 144, pp. 1-10, 2018.
  • H. M. Alghamdi, M. M. Abutalib, A. Rajeh, M. A. Mannaa, O. Nur, and E. M. Abdelrazek, “Effect of the Fe2O3/TiO2 Nanoparticles on the Structural, Mechanical, Electrical Properties and Antibacterial Activity of the Biodegradable Chitosan/Polyvinyl Alcohol Blend for Food Packaging”, Journal of Polymers and the Environment, vol. 30, no. 9, pp. 3865–3874, 2022.
  • J. Ahmed and S. K. Varshney, “Polylactides—chemistry, properties and green packaging technology: A review”, International Journal of Food Properties, vol. 14, no. 1, pp. 37-58, 2011.
  • J. You, L. Lou, W. Yu, and C. Zhou, “The preparation and crystallization of long chain branching polylactide made by melt radicals reaction”, Journal of Applied Polymer Science, vol. 129, no. 4, pp. 1959-1970, 2013.
  • X. Liu, C. Gao, P. Sangwan, L. Yu, and Z. Tong, “Accelerating the degradation of polyolefins through additives and blending”, Journal of Applied Polymer Science, vol. 131, no. 18, pp. 40750, 2014.
  • X. Wang, H. Zhou, B. Liu, Z. Du, and H. Li, “Chain extension and foaming behavior of poly (lactic acid) by functionalized multiwalled carbon nanotubes and chain extender”, Advances in Polymer Technology, vol. 33, no. S1, pp. 21444-21454, 2014.
  • D. S. Aldana, E. D. Villa, M. Hernández, D. Dios, G. G. Sanchez, Q. R. Cruz, S. F. Gallardo, H. P. Castillo, and L. B. Casarrubias, “Barrier Properties of Polylactic Acid in Cellulose Based Packages Using Montmorillonite as Filler”, Polymers, vol. 6, pp. 2386-2403, 2014.
  • B. W. Chieng, N. A. Ibrahim, N. A., W. M. Z. Wan Yunus, M. Z. Hussein, Y. Y. Then, and Y. Y. Loo, “Effects of graphene nanoplatelets and reduced graphene oxide on poly (lactic acid) and plasticized poly (lactic acid): A comparative study”, Polymers, vol. 6, no. 8, pp. 2232-2246, 2014.
  • Y. Gogotsi, Nanotubes and Nanofibers. Boca Raton, CRC Press, 2006.
  • B. Kumar, M. Castro, and J. F. Feller, “Poly (lactic acid)–multi-wall carbon nanotube conductive biopolymer nanocomposite vapour sensors”, Sensors and Actuators B: Chemical, vol. 161, no.1, pp. 621-628, 2012.
  • S. W. Ko, M. K. Hong, B. J. Park, R. K. Gupta, H. J. Choi, and S. N. Bhattacharya, “Morphological and rheological characterization of multi-walled carbon nanotube/PLA/PBAT blend nanocomposites”, Polymer Bulletin, vol. 63, pp. 125-134, 2009.
  • H. Y. Yu, Z. Y. Qin, B. Sun, X. G. Yang, and J. M. Yao, “Reinforcement of transparent poly (3-hydroxybutyrate-co-3-hydroxyvalerate) by incorporation of functionalized carbon nanotubes as a novel bionanocomposite for food packaging”, Composites Science and Technology, vol. 94, pp. 96-104, 2014.
  • P. K. Tripathi, S. Durbach, and N. J. Coville, “Synthesis of multi-walled carbon nanotubes from plastic waste using a stainless-steel CVD reactor as catalyst”, Nanomaterials, vol. 7, no. 10, pp. 284-301, 2017.
  • N. Thummarungsan, D. Pattavarakorn, and A. Sirivat, “Tuning rigidity and negative electrostriction of multi-walled carbon nanotube filled poly (lactic acid)”, Polymer, vol. 196, pp. 122488-122499, 2020.
  • P. G. Seligra, F. Nuevo, M. Lamanna, and L. Famá, “Covalent grafting of carbon nanotubes to PLA in order to improve compatibility”, Composites Part B: Engineering, vol. 46, pp. 61-68, 2013.
  • Y. Zhou, L. Lei, B. Yang, J. Li, and J. Ren, “Preparation and characterization of polylactic acid (PLA) carbon nanotube nanocomposites”, Polymer Testing, vol. 68, pp. 34-38, 2018.
  • G. E. A. Verginio, T. L. D. A. Montanheiro, L. S. Montagna, J. Marini, and F. R. Passador, “Effectiveness of the preparation of maleic anhydride grafted poly (lactic acid) by reactive processing for poly (lactic acid)/carbon nanotubes nanocomposites”, Journal of Applied Polymer Science, vol. 138, no. 12, pp. 50087, 2021.
  • N. F. Braga, H. M. Zaggo, T. L. Montanheiro, and F. R. Passador, “Preparation of maleic anhydride grafted poly (trimethylene terephthalate) (PTT-g-MA) by reactive extrusion processing”, Journal of Manufacturing and Materials Processing, vol. 3, no. 2, pp. 37, 2019.
  • Y. Y. Lu, H. Li, and H. Z. Liu, “Maleic anhydride functionalization of multi-walled carbon nanotubes by the electron beam irradiation in the liquid media”, Physica E: Low-dimensional Systems and Nanostructures, vol. 43, no. 1, pp. 510-514, 2019.
  • C. Y. Hong, Y. Z. You, and C. Y. Pan, “A new approach to functionalize multi-walled carbon nanotubes by the use of functional polymers”, Polymer, vol. 47, no. 12, pp. 4300-4309, 2006.
  • Y. L. Huang, S. M. Yuen, C. C. M. Ma, C. Y. Chuang, K. C. Yu, C. C. Teng, H. W. Tien, Y. C. Chiu, S. Y. Wu, S. H. Liao, and F. B. Weng, “Morphological, electrical, electromagnetic interference (EMI) shielding, and tribological properties of functionalized multi-walled carbon nanotube/poly methyl methacrylate (PMMA) composites”, Composites Science and Technology, vol. 69, no. 11-12, pp. 1991-1996, 2009.
  • H. L. Wu, C. H. Wang, C. C. M. Ma, Y. C. Chiu, M. T. Chiang, and C. L. Chiang, “Preparations and properties of maleic acid and maleic anhydride functionalized multiwall carbon nanotube/poly (urea urethane) nanocomposites”, Composites Science and Technology, vol. 67, no. 9, pp. 1854-1860, 2017.
  • G. X. Chen, H. S. Kim, B. H. Park, and J. S. Yoon, “Controlled functionalization of multiwalled carbon nanotubes with various molecular-weight poly (L-lactic acid)”, The Journal of Physical Chemistry B, vol. 109, no. 47, pp. 22237-22243, 2005.
  • Y. Zhou, L. Lei, B. Yang, J. Li, and J. Ren, “Preparation and characterization of polylactic acid (PLA) carbon nanotube nanocomposites”, Polymer Testing, vol. 68, pp. 34-38, 2018.
  • Q. Zhang, H. Quan, J. Liu, D. Gao, and S. Zhang, China Synthetic Resin and Plastics, vol. 39, pp. 5, 2022. G. Urtekin and A. Aytac, “The effects of multi-walled carbon nanotube additives with different functionalities on the properties of polycarbonate/poly (lactic acid) blend”, Journal of Polymer Research, vol. 28, pp. 1, 2021.
  • C. F. Kuan, H. C. Kuan, C. C. M. Ma, and C. H. Chen, “Mechanical and electrical properties of multi-wall carbon nanotube/poly (lactic acid) composites”, Journal of Physics and Chemistry of Solids, vol. 69, no. 5-6, pp. 1395-1398, 2008.
  • Y. Zare and K. Y. Rhee, “Formulation of tunneling resistance between neighboring carbon nanotubes in polymer nanocomposites”, Engineering Science and Technology, an International Journal, vol. 24, no. 3, pp. 605-610, 2021.
  • N. Nakayama and T. Hayashi, “Preparation and characterization of poly (l-lactic acid)/TiO2 nanoparticle nanocomposite films with high transparency and efficient photodegradability”, Polymer Degradation and Stability, vol. 92, no. 7, pp. 1255-1264, 2007.
  • P. Pötschke, S. M. Dudkin, and I. Alig, “Dielectric spectroscopy on melt processed polycarbonate—multiwalled carbon nanotube composites”, Polymer, vol. 44, no. 17, pp. 5023-5030, 2003.
  • N. G. Sahoo, S. Rana, J. W. Cho, L. Li, and S. H. Chan, “Polymer nanocomposites based on functionalized carbon nanotubes”, Progress in Polymer Science, vol. 35, no. 7, pp. 837-867, 2010.
  • B. V. Basheer, J. J. George, S. Siengchin, and J. Parameswaranpillai, “Polymer grafted carbon nanotubes—Synthesis, properties, and applications: A review”, Nano-Structures & Nano-Objects, vol. 22, pp. 100429, 2020.
  • K. Chrissafis, “Detail kinetic analysis of the thermal decomposition of PLA with oxidized multi-walled carbon nanotubes”, Thermochimica Acta, vol. 511, no. 1-2, pp. 163-167, 2010.
  • C. S. Wu and H. T. Liao, “Study on the preparation and characterization of biodegradable polylactide/multi-walled carbon nanotubes nanocomposites”, Polymer, vol. 48, no. 15, pp. 4449-4458, 2007.
There are 36 citations in total.

Details

Primary Language English
Subjects Materials Science and Technologies, Polymer Science and Technologies
Journal Section Research Article
Authors

Figen Arslan 0009-0007-3914-1707

Şükran Melda Eskitoros Toğay 0000-0002-7473-8417

Publication Date September 1, 2024
Submission Date January 10, 2024
Acceptance Date May 21, 2024
Published in Issue Year 2024 Volume: 12 Issue: 3

Cite

IEEE F. Arslan and Ş. M. Eskitoros Toğay, “EFFECT OF CHEMICAL MODIFICATION OF MULTIWALL CARBON NANOTUBES ON THE PROPERTIES OF POLY(LACTIC ACID) COMPOSITE FILMS: SYNTHESIS AND CHARACTERIZATION”, KONJES, vol. 12, no. 3, pp. 608–629, 2024, doi: 10.36306/konjes.1417602.