Synthesis and characterization of poly(lactic acid)/clove essential oil/alkali-treated halloysite nanotubes composite films for food packaging applications

In this study, nanocomposites of polylactic acid (PLA) with clove essential oil (CEO) and alkali treated halloysite nanotubes (NHNT) as fillers were synthesized by using simple solvent casting method. The treatment of halloysite nanotubes with NaOH increased the surface area from 50.16 m 2 ⋅g −1 to 57.01 m 2 ⋅g −1 and pore volume from 0.25 cm 3 ⋅g −1 to 0.32 cm 3 ⋅g −1 . The as-synthesized nanocomposite films were characterized for physical, thermal, mechanical and water vapor barrier properties towards their use as food packaging material. The nanocomposite film PCOH0.5 (consisting 0.5 wt% NHNT and 200 μL CEO) possessed the best physical properties with percentage enhancements over PLA as: surface hydrophobicity (20.2 %), water vapor barrier (42.1 %), thermal stability (3.2 %), flexibility (682 %), tensile strength (20 %), elastic modulus (38 %), UV barrier property (62 %). In addition, a practical packaging test was performed on cut apples stored at room temperature for 6 days. The PCOH0.5 films showed substantially improved results (as compared to PLA) as follows: weight loss (40.5 %), mesophilic count (4.0 %), firmness (116.6 %), titratable acidity (110.8 %), pH (2.9 %) and total soluble solids (8.9 %). The results clearly indicate the efficiency of PLA/CEO/NHNT nanocomposite films as potential active food packaging material. • Synthesis and characterization of PLA/CEO/NHNT composite films using solvent casting • Alkali-treatment of halloysite nanotubes increased surface area and pore volume. • Composite film PCOH0.5 (0.5 wt% NHNT and 200 μL CEO) had best physical properties. • Practical packaging test performed on cut apples stored at room temperature for 6 days • PCOH0.5 showed improved results for weight loss, pH, firmness and antimicrobial activity.