Fabrication and Characterization of Composite Biofilm of Konjac Glucomannan/Sodium Lignosulfonate/ε-Polylysine with Reinforced Mechanical Strength and Antibacterial Ability

Abstract: In order to enforce the mechanical strength and antibacterial ability of biofilm and explore the underlying mechanism, sodium lignosulfonate (SL) and ε-polylysine (ε-PL) were introduced to fabricate the composite film of konjac glucomannan (KGM)/SL/ε-PL in the present study. According to our previous method, 1% (w/v) of KGM was the optimal concentration for the film preparation method, on the basis of which the amount of SL and ε-PL were screened by mechanical properties enforcement of film. The structure, mec… Show more

“…However, disadvantages of biopolymers applied in the process of electrospinning are obvious. (1) Unstable generation of LPFs due to ultra-high viscosity of polymer solutions [25], and (2) brittle structure and poor mechanical properties of LPFs [26]. Those limitations decrease the application of KGM in the preparation of LPFs via electrospinning technology [23].…”

Electrospun Konjac Glucomannan/Polyvinyl Alcohol Long Polymeric Filaments Incorporated with Tea Polyphenols for Food Preservations

“…However, disadvantages of biopolymers applied in the process of electrospinning are obvious. (1) Unstable generation of LPFs due to ultra-high viscosity of polymer solutions [25], and (2) brittle structure and poor mechanical properties of LPFs [26]. Those limitations decrease the application of KGM in the preparation of LPFs via electrospinning technology [23].…”

Electrospun Konjac Glucomannan/Polyvinyl Alcohol Long Polymeric Filaments Incorporated with Tea Polyphenols for Food Preservations

A novel high water-soluble antibacterial films-based guar gum incorporated with Aloe vera gel and ε-polylysine

Cinnamaldehyde emulsions for a composite film based on polyvinyl alcohol/hydrophobically modified konjac glucomannan matrix: Degradability and bacteriostatic properties