Abstract Poly (l-lactic acid)(PLLA) and poly (butylene succinate)(PBS) are biodegradable,
compostable, and biocompatible polymers that can be produced from annually renewable …

Polylactic acid (PLA) has received significant attention in recent years as a commercially
available biodegradable resin. However, its brittleness limits its broader adoption. Blending …

The insufficient barrier performance of poly (butylene adipate-co-terephthalate)(PBAT) has
seriously limited its applications in food packaging and film mulching. Herein, poly (butylene …

The toughening of PLA is usually realized by blending with elastomers or plasticizers, but
often conflicted with lowered mechanical strength and complicated preparation steps. In the …

This study gives an overview of the most relevant processing and performance properties of
a wide selection of biobased and biodegradable plastic materials that are currently …

Polyglycolic acid (PGA) with outstanding biodegradability and gas barrier is promising in the
packaging field. Unfortunately, the poor toughness limits its application. Biodegradable and …

Over the past decade, the preparation of novel materials by enzyme-embedding into
biopolyesters has been proposed as a straightforward method to produce self-degrading …

Poor compatibility limits the wide application of biodegradable poly (lactic acid)/poly
(butylene adipate-terephthalate)(PLA/PBAT) blends in packaging industry. How to prepare …

Optimizing interfacial compatibility is one of the core issues for constructing high-
performance green poly (lactic acid)(PLA) blends. Herein, we prepared a poly …

Simultaneously improving the toughness and heat resistance of poly (l-lactide)(PLLA) is
significant for expanding biodegradable materials' application range. In this work, reactive …