From Forest to Future: Synthesis of Sustainable High Molecular Weight Polyamides Using and Investigating the AROP of β‐Pinene Lactam

Abstract

AbstractPolyamides (PA) are among the most essential and versatile polymers due to their outstanding characteristics, for example, high chemical resistance and temperature stability. Furthermore, nature‐derived monomers can introduce hard‐to‐synthesize structures into the PAs for unique polymer properties. Pinene, as one of the most abundant terpenes in nature and its presumable stability‐giving bicyclic structure, is therefore highly promising. This work presents simple anionic ring‐opening polymerizations of β‐pinene lactam (AROP) in‐bulk and in solution. PAs with high molecular weights, suitable for further processing, are produced. Their good mechanical, thermal (Tds up to 440 °C), and transparent appearance render them promising high‐performance biomaterials. In the following, the suitability of different initiators is discussed. Thereby, it is found that NaH is the most successful for in‐bulk polymerization, with a degree of polymerization (DP) of about 322. For solution‐AROP, iPrMgCl·LiCl is successfully used for the first time, achieving DPs up to about 163. The obtained PAs are also hot‐pressed, and the dynamic mechanical properties are analyzed.