Teaching Green Chemistry and Engineering through the Epoxidation of Poly‐β‐myrcene

Abstract

AbstractThis study explores the application of the epoxidation process of poly‐β‐myrcene, a constituent of the natural resin from Chios Mastic trees (Pistacia Lentiscus L.), as an educational instrument for teaching Green Chemistry and Engineering to students at various academic levels. The study provides a comprehensive presentation of foundational knowledge essential for interpreting the subsequent experimental data. Consequently, the production process that leads to the production of Mastic Epoxide (MASTEP) stands as an invaluable pedagogical resource, enabling educators to impart crucial principles of Green Chemistry and Engineering to both pre‐graduate and post‐graduate students. By employing MASTEP as a case study, this educational approach actively involves students in a dynamic learning environment. Through this methodology, learners develop a profound comprehension of sustainability, innovation, and good practices. The integration of the MASTEP concept into the curriculum would foster a deeper understanding of responsible methodologies among aspiring chemical engineers and scientists, equipping them to make substantial contributions towards a more sustainable global landscape. This educational model aims to contribute to preparing future generations for a pivotal role in fostering a sustainable world through their professional endeavors.