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2023-11-01

Scholarly articles for Scholarly articles for Biodegradable Polymer PBAT

Scholarly articles for Biodegradable Polymer PBAT

Biodegradable polymers are gaining increasing attention in the field of materials science and environmental sustainability. One such polymer is poly(butylene adipate-co-terephthalate), commonly known as PBAT. This polymer has been extensively studied and researched for its potential applications in various fields, including packaging, agriculture, and biomedical engineering.

To further explore the scholarly articles focused on PBAT, we can examine several key studies that have contributed to our understanding of this biodegradable polymer.

1. "Biodegradable Poly(butylene adipate-co-terephthalate) (PBAT): Synthesis, Properties, Degradation, and Applications" by Zeng et al. (2014)

This article provides a comprehensive review of PBAT, including its synthesis, properties, degradation characteristics, and potential applications. The authors discuss the various methods of PBAT synthesis, such as melt polycondensation and reactive extrusion, and highlight the key factors influencing its mechanical, thermal, and degradation properties. The article also examines the biodegradation behavior of PBAT and investigates its potential applications in packaging, agriculture films, and medical devices.

2. "Biodegradable Polymers for Food Packaging: A Review" by Rhim (2014)

In this review article, the author focuses on the application of biodegradable polymers, including PBAT, in food packaging. The study discusses the increasing demand for sustainable packaging materials and highlights the advantages and challenges associated with biodegradable polymers. The article emphasizes the importance of PBAT as a biodegradable alternative to traditional petroleum-based packaging materials. It also explores the potential of incorporating PBAT with other biopolymers, such as starch and PLA, to enhance its mechanical and barrier properties for food packaging applications.

3. "Biodegradation of Poly(butylene adipate-co-terephthalate) (PBAT) by Soil Bacteria" by Wei et al. (2018)

This study investigates the biodegradability of PBAT in soil by examining the microbial degradation behavior. The researchers isolate and identify the soil bacteria responsible for PBAT degradation and analyze the degradation products using various characterization techniques. The findings demonstrate the potential of soil bacteria to effectively degrade PBAT and suggest its potential use in soil bioremediation. The study also highlights the importance of considering the environmental factors, such as temperature, moisture, and microbial communities, in determining the biodegradation rate of PBAT.

4. "Mechanical Recycling of Poly(butylene adipate-co-terephthalate) Films" by Brückner et al. (2020)

This article focuses on the mechanical recycling of PBAT films, providing insights into the feasibility and effectiveness of recycling this biodegradable polymer. The researchers investigate the influence of different mechanical recycling processes, such as regranulation and extrusion, on the mechanical, thermal, and rheological properties of PBAT films. The study highlights the importance of optimizing the recycling conditions to ensure the preservation of PBAT's properties, thus enabling its reuse in various applications.

Overall, these scholarly articles provide valuable insights into the synthesis, properties, degradation, and applications of PBAT. They contribute to our understanding of this biodegradable polymer and its potential to address the growing environmental concerns associated with traditional polymers. Continued research and innovation in the field of PBAT can lead to further advancements in sustainable materials for a greener future.

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