Litcius/Paper detail

Recent Advances in Sustainable Plastic Upcycling and Biopolymers

Yu Jung Sohn, Hee Taek Kim, Kei‐Anne Baritugo, Seo Young Jo, Hye Min Song, Se Young Park, Su Kyeong Park, Su Kyeong Park, Jiwon Pyo, Hyun Gil, Hoyong Kim, Jeong‐Geol Na, Chulhwan Park, Jong‐Il Choi, Jeong Chan Joo, Si Jae Park, Si Jae Park

2020Biotechnology Journal148 citationsDOI

Abstract

Advances in scientific technology in the early twentieth century have facilitated the development of synthetic plastics that are lightweight, rigid, and can be easily molded into a desirable shape without changing their material properties. Thus, plastics become ubiquitous and indispensable materials that are used in various manufacturing sectors, including clothing, automotive, medical, and electronic industries. However, strong physical durability and chemical stability of synthetic plastics, most of which are produced from fossil fuels, hinder their complete degradation when they are improperly discarded after use. In addition, accumulated plastic wastes without degradation have caused severe environmental problems, such as microplastics pollution and plastic islands. Thus, the usage and production of plastics is not free from environmental pollution or resource depletion. In order to lessen the impact of climate change and reduce plastic pollution, it is necessary to understand and address the current plastic life cycles. In this review, "sustainable biopolymers" are suggested as a promising solution to the current plastic crisis. The desired properties of sustainable biopolymers and bio-based and bio/chemical hybrid technologies for the development of sustainable biopolymers are mainly discussed.

Topics & Concepts

Plastic pollutionMicroplasticsEnvironmental pollutionEnvironmental degradationPollutionBiochemical engineeringFossil fuelSustainable developmentResource depletionClothingAutomotive industryEnvironmental scienceLead (geology)Materials scienceWaste managementEngineeringEnvironmental protectionChemistryEcologyGeologyLawArchaeologyAerospace engineeringPolitical scienceEnvironmental chemistryBiologyHistoryGeomorphologybiodegradable polymer synthesis and propertiesMicroplastics and Plastic PollutionSustainable Supply Chain Management
Recent Advances in Sustainable Plastic Upcycling and Biopolymers | Litcius