BioResources (Mar 2014)

High Molecular-Weight Thermoplastic Polymerization of Kraft Lignin Macromers with Diisocyanate

  • Le Dai Duong,
  • Gi-Yong Nam,
  • Joon-Suk Oh,
  • In-Kyung Park,
  • Nguyen Dang Luong,
  • Ho-Kyu Yoon,
  • Seong-Hoon Lee,
  • Youngkwan Lee,
  • Ju-Ho Yun,
  • Chong-Gu Lee,
  • Suk-Ho Hwang,
  • Jae-Do Nam

DOI
https://doi.org/10.15376/biores.9.2.2359-2371
Journal volume & issue
Vol. 9, no. 2
pp. 2359 – 2371

Abstract

Read online

A high molecular-weight thermoplastic lignin-based polymer was successfully synthesized by adjusting the degree of polymerization while inducing linear growth of lignin macromers via methylene diphenyldiisocyanate. The thermoplastic lignin-urethane polymer was desirably achieved in a narrow range of reaction conditions of 2.5 to 3.5 h at 80 oC in this study, and the molecular weight of the resulting lignin-based polyurethanes (LigPU) reached as high as 912,000 g/mole, which is far above any reported values of lignin-based polymer derivatives. The thermal stability of LigPU was greatly improved by the urethane polymerization, giving the initial degradation temperature (T2%) at 204 °C, which should be compared with T2% = 104 °C of the pristine lignin. This was due to the fact that the OH groups in the lignin macromers, having low bond-dissociation energy, were replaced by the urethane bonds. In dielectric analysis, the synthesized LigPU exhibited a softening transition at 175 °C corresponding to a combinatorial dual process of the dry Tg,dry of the lignin macromers and the softening of methylenediphenyl urethane chains. This work clearly demonstrated that a high molecular weight of thermoplastic LigPU could be desirably synthesized, broadening the lignin application for value added and eco-friendly products through common melt processes of polymer blend or composites.

Keywords