In this work, we designed and fabricated a multifunctional nanocomposite system that
consists of chitosan, raspberry-like silver nanoparticles, and graphene oxide. The room …

Graphene oxide (GO) has high-efficient antibacterial activity to diverse pathogenic bacteria.
However, the detailed antibacterial mechanism of GO is not fully clear. Herein the …

Hybrid materials are classified as one of the most highly important topics that have been of
great interest to many researchers in recent decades. There are many species that can fall …

Silver nanoparticles (AgNPs) have drawn great attention due to their outstanding
antibacterial effect in a wide range of applications, such as biomass packaging materials …

Chitosan (CS) is a natural polysaccharide isolated from insects, molluscs, and fungi. The
specific properties of chitosan can be enhanced using physicochemical processes. The …

The power-law model for composite conductivity is expanded for graphene-based samples
using the effects of interphase, tunnels and net on the effective filler fraction, percolation start …

The expanded Takayanagi model for a nanocomposite's modulus after percolation onset is
simplified and progressed for the strength of a halloysite nanotube (HNT)/polymer system by …

Natural polymer-based hydrogels have demonstrated great potential as wound-healing
dressings. They help to maintain a moist wound environment as well as promote faster …

In this study, the percolation inception, actual filler amount, and concentration of nets are
expressed using the filler size and agglomeration, interphase depth, and tunneling size. A …

A small number of authors have focused on the theoretical investigation of electrical
conductivity for polymer/graphene systems, in spite of more experiment studies in this field …