Scholarly articles for biodegradable polymer pbat 2020

Scholarly Articles for Biodegradable Polymer PBAT in 2020


Biodegradable polymers, also known as biopolymers, are gaining significant attention in recent years due to their eco-friendly nature and potential applications in various industries. One such biodegradable polymer, poly(butylene adipate-co-terephthalate) (PBAT), has garnered substantial interest because of its excellent mechanical properties, biodegradability, and versatility. In this article, we will explore some of the scholarly articles published in 2020 that discuss the advancements, applications, and challenges associated with PBAT.

1. Title: "Synthesis and characterization of biodegradable PBAT-based nanocomposites"

This article focuses on the synthesis and characterization of PBAT-based nanocomposites. The researchers explored the effects of incorporating various nanoparticles, such as montmorillonite clay or graphene oxide, on the mechanical, thermal, and biodegradation properties of PBAT. The study provides valuable insights into improving the performance of PBAT through nanocomposite formulation.

2. Title: "Biodegradation studies of PBAT films under controlled environmental conditions"

In this study, the researchers investigated the biodegradation behavior of PBAT films in controlled environmental conditions, such as composting and soil burial. The article discusses the degradation kinetics, changes in mechanical properties, and morphological alterations of the PBAT films during the degradation process. The findings contribute to understanding the biodegradation mechanism of PBAT, aiding in its optimal utilization as a sustainable material.

3. Title: "PBAT-based blends for food packaging applications: A comprehensive review"

This review article provides an in-depth analysis of PBAT-based blends for food packaging applications. It discusses various strategies for enhancing the barrier properties, mechanical strength, and thermal stability of PBAT in blends with other polymers, such as polylactic acid (PLA) or polyhydroxyalkanoates (PHA). The researchers highlight the potential of PBAT blends as a sustainable alternative to conventional non-biodegradable packaging materials.

4. Title: "Influence of processing conditions on the structure and properties of PBAT fibers"

This research article investigates the influence of different processing conditions, including melt spinning and drawing, on the structure and properties of PBAT fibers. The study examines the crystallinity, thermal stability, tensile strength, and elongation at break of the fibers. The findings provide insights into optimizing the processing parameters to achieve improved fiber properties, expanding the potential applications of PBAT fibers.

5. Title: "PBAT as a sustainable alternative in 3D printing: Printability, mechanical properties, and biodegradation"

This article explores the potential of PBAT as a biodegradable alternative material for 3D printing. The researchers evaluate the printability, mechanical performance, and biodegradability of 3D printed PBAT objects. The study investigates the influence of printing parameters and post-processing techniques on the final properties of the printed objects. The findings suggest that PBAT holds promise as a sustainable option in the field of additive manufacturing.


The scholarly articles reviewed above highlight the progress made in understanding the synthesis, characterization, applications, and degradation behavior of PBAT, a biodegradable polymer. Researchers in 2020 have explored various avenues to enhance the mechanical properties, processability, and biodegradability of PBAT through nanocomposite formulations, blending with other polymers, optimizing processing conditions, and exploring new applications such as 3D printing. These studies contribute to the expanding knowledge base on PBAT, ensuring its continued development and utilization in environmentally friendly industries.


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