Marco Barbale scite author profile

The aim of this work was to study the effect of the innovative combination of microcrystalline cellulose (MCC) and silver nanoparticles (Ag) on the poly (lactide acid) (PLA) composite properties, to modulate the PLA mechanical response and induce an antibacterial effect. The preparation and characterization of PLA-based composites with MCC and Ag nanoparticles by twin-screw extrusion followed by injection molding is reported. A film procedure was also performed to obtain PLA and PLA composite films with a thickness ranged between 20 and 60 lm. The analysis of disintegrability in composting conditions by means of visual, morphological, thermal, and chemical investigations was done to gain insights into the post-use degradation processes. Tensile test demonstrated the MCC reinforcing effect, while a bactericidal activity of silver-based composites against a Gram-negative bacteria (Escherichia coli) and a Gram-positive bacteria (Staphylococcus aureus) was detected at any time points and temperatures analyzed. Moreover, the disintegrability in composting showed that MCC is able to promote the degradation process. The combination of MCC and Ag nanoparticles in PLA polymer matrix offers promising perspectives to realize multifunctional ternary composites with good mechanical response and antibacterial effect, maintaining the optical transparency and the disintegrability, hence suitable for packaging applications. V C 2011 Wiley Periodicals, Inc. J Appl Polym Sci 124: [87][88][89][90][91][92][93][94][95][96][97][98] 2012

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Biodegradation of plastics in soil and effects on nitrification activity. A laboratory approach

Ardisson

Tosin

Barbale

et al. 2014

Front. Microbiol.

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The progressive application of new biodegradable plastics in agriculture calls for improved testing approaches to assure their environmental safety. Full biodegradation (≥90%) prevents accumulation in soil, which is the first tier of testing. The application of specific ecotoxicity tests is the second tier of testing needed to show safety for the soil ecosystem. Soil microbial nitrification is widely used as a bioindicator for evaluating the impact of chemicals on soil but it is not applied for evaluating the impact of biodegradable plastics. In this work the International Standard test for biodegradation of plastics in soil (ISO 17556, 2012) was applied both to measure biodegradation and to prepare soil samples needed for a subsequent nitrification test based on another International Standard (ISO 14238, 2012). The plastic mulch film tested in this work showed full biodegradability and no inhibition of the nitrification potential of the soil in comparison with the controls. The laboratory approach suggested in this Technology Report enables (i) to follow the course of biodegradation, (ii) a strict control of variables and environmental conditions, (iii) the application of very high concentrations of test material (to maximize the possible effects). This testing approach could be taken into consideration in improved testing schemes aimed at defining the biodegradability of plastics in soil.

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Hazard profiling of compostable shopping bags. Towards an ecological risk assessment of littering

Barbale

Chinaglia

Gazzilli

et al. 2021

Polymer Degradation and Stability

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Disintegration and mineralization of mulch films and leaf litter in soil

Tosin

Barbale

Chinaglia

et al. 2020

Polymer Degradation and Stability

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Analysis of the microplastic emission potential of a starch-based biodegradable plastic material

Innocenti

Barbale

Chinaglia

et al. 2022

Polymer Degradation and Stability

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Marco Barbale

New multifunctional poly(lactide acid) composites: Mechanical, antibacterial, and degradation properties

Biodegradation of plastics in soil and effects on nitrification activity. A laboratory approach

Hazard profiling of compostable shopping bags. Towards an ecological risk assessment of littering

Disintegration and mineralization of mulch films and leaf litter in soil

Analysis of the microplastic emission potential of a starch-based biodegradable plastic material

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