Litcius/Paper detail

Supercritical carbon dioxide-based approach for the recovery and purification of polyhydroxyalkanoates from mixed microbial cultures: A green approach for bioplastics production

Farid Hajareh Haghighi, Gaia Salvatori, Sara Alfano, Laura Lorini, Francesco Valentino, Marianna Villano, Laura Chronopoulou, Cleofe Palocci

2025The Journal of Supercritical Fluids6 citationsDOIOpen Access PDF

Abstract

The widespread use of petroleum-based plastics has significant environmental consequences, including greenhouse gas emissions and long-term contamination of marine and terrestrial habitats. In contrast, bioplastics are a class of biopolymers, widely considered as the main alternative to conventional non-degradable plastics. Polyhydroxyalkanoates (PHAs) are a class of biodegradable polymers that have the potential to replace conventional polymers thanks to their similar properties. PHAs are currently produced using fermentation technologies, which require post-extraction purification procedures as well as the use of organic solvents for the removal of residual fermentation media to obtain high-quality products (e.g., medical devices). In the present study, supercritical CO 2 -extraction (scCO 2 ) was employed as a green technology to selectively recover and purify PHAs from mixed microbial cultures using different multi-step protocols, including: the use of co-solvents (methanol, water and phosphate buffer solution) inside the scCO 2 cell, pre- and post-treatment of the biomass (with enzymes and H 2 O 2 ), employing different times (2 h to 4 h), temperatures (35 °C to 40 °C) and pressures (20 MPa to 35 MPa) for the scCO 2 -treatment. Among the tested protocols, the post-treatment of biomass with H 2 O 2 and trypsin (scCO 2 -H 2 O 2 -trypsin) resulted in the highest PHA purity and recovery with 97.2% and 97.3%, respectively. The results demonstrate the importance of scCO 2 -based techniques as a valid alternative to conventional methods that use chlorinated organic solvents. This highlights the importance of green technologies as a turning point in the industrial production of biopolymers starting from a complex biomass feedstock.

Topics & Concepts

BioplasticPolyhydroxyalkanoatesSupercritical carbon dioxideCarbon dioxideProduction (economics)Supercritical fluidChemistryBiochemical engineeringPulp and paper industryBiotechnologyWaste managementBiologyOrganic chemistryEngineeringBacteriaEconomicsMacroeconomicsGeneticsbiodegradable polymer synthesis and propertiesMicroplastics and Plastic PollutionCarbon dioxide utilization in catalysis