Research progress of novel bio-based plasticizers and their
Many bio-based PVC plasticizers, such as vegetable oil-based plasticizers, cardanol-based plasticizers, lactic acid-based plasticizers, waste cooking oil-based plasticizers, polyester plasticizers, hyperbranched plasticizers and so on, have been extensively studied.
Recent Developments of Biobased Plasticizers and Their Effect on
This review paper covers the utilization of traditional and biobased plasticizers for PVC plasticization, and their effect on environmental, mechanical, and thermal properties has been reported. Cited By This article is cited by 53 publications. Chetan V. Rajput, Rupa B. Mukherjee, Nandhibatla V. Sastry, Navin P. Chikhaliya.
Bio Plasticizers Market by Type and Application - 2030
The global bio plasticizers market was valued at $1.3 billion in 2025, and is projected to reach $2.1 billion by 2030, growing at a CAGR of 5.31% from 2025 to 2030. The increase in demand for the e-commerce during the pandemic has created a huge demand for films and sheet covering used in packaging industries. The shutdown construction projects
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Developments of biobased plasticizers
Moreover, the effect of biobased plasticizer concentration, interaction, and compatibility on the polymer properties has been examined. Recent developments have resulted in the replacement of synthetic plasticizers by biobased counterparts. Particularly, this has been the case for some biodegradable thermoplastics‐based packaging applications.
- Why are bio-based plasticizers important?
- The rapid technological development of bio-based plastics, such as PLA, polyhydroxyalkanoates, (PHA), bio-based epoxy resin and bio-based PE, has yet to be translated into significant market impact, primarily due to high production cost and performance limitations. Plasticizers are important additives and performance enhancers of polymers.
- Is there a biobased plasticizer for PVC formulation?
- Growing awareness of the effects of plasticizers on the environment and the depletion of petroleum-based resources has made the development of an alternative biobased plasticizer for PVC formulation necessary.
- Which plasticizers are used for bio-based plastics?
- Although a wide variety of bio-based plastics are under development, this review focuses on plasticizers utilized for the most extensively studied bioplastics including poly (lactic acid), polyhydroxyalkanoates, thermoplastic starch, proteinaceous plastics and cellulose acetates.
- Do biobased plasticizers affect packaging material performance?
- The synthesis of biobased plasticizers derived from renewable feedstocks and their impact on packaging material performance have been emphasized. Moreover, the effect of biobased plasticizer concentration, interaction, and compatibility on the polymer properties has been examined.
- Can biobased plasticizers replace synthetic plasticizer?
- Recent developments have resulted in the replacement of synthetic plasticizers by biobased counterparts. Particularly, this has been the case for some biodegradable thermoplastics-based packaging applications. biobased plasticizers; compostable polymers; green packaging. © 2021 American Institute of Chemical Engineers.
- What is the current state of bio-based plasticizers in PLA applications?
- In summary, the current state of bio-based plasticizers in PLA applications reflects rapid development and significant growth prospects. Future research should focus on bio-based plasticizers with synergistic effects such as plasticizing, toughening, antimicrobial, and anti-migration properties.
