What is it about?
The fast depletion of fossil fuel reserves, global warming and environmental problems caused by non-biodegradable plastic materials as well as the high toxicity of some synthetic polymers that prevents their use in packaging or medical applications are the main reasons for a greener and more sustainable approach. There is also an imperative demand from the medical sector for more advanced materials with both biocompatibility and specialized functionalities to be used in living systems. High expectations arise from polymers obtained from renewable sources: poly(lactic acid) (PLA), polyhydroxyalkanoates (PHA), poly(butylene succinate) (PBS) and their blends, which are relevant materials for both biomedical and engineering fields. Moreover, bacterial cellulose (BC) has excellent properties and very broad application opportunities. Therefore, considering that these promising biomaterials will play an active role in the future, this review covers the progress made in the study of aliphatic polyesters/BC nanocomposites from the perspective of nanostructure-property relationship. New approaches to obtain aliphatic polyesters/BC nanocomposites with tailored mechanical properties and inherent biocompatibility are also summarized. The updated information from this review will help identifying new directions and strategies to design biocomposites for medical field and other applications.
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Why is it important?
This review aims to provide updated information on the progress in the design of new biomaterials from aliphatic polyesters and bacterial cellulose. The foreseen applications are mainly in the biomedical field.
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This page is a summary of: Nanostructured biocomposites from aliphatic polyesters and bacterial cellulose, Industrial Crops and Products, December 2016, Elsevier,
DOI: 10.1016/j.indcrop.2016.02.038.
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