Cotton, a natural textile fiber, is widely used worldwide due to its softness, comfort,
breathability, and other properties. However, the limit oxygen index value (LOI) of cotton is …

Due to thermal and flame/fire sensitivity of biopolymers especially in plant-based biopolymer
fillers, it is extremely and necessary to improve the reaction to flame. The bio-polymers …

With rising environmental concerns and depletion of petrochemical resources, biomass-
based chemicals have been paid more attention. Polyvinyl chloride (PVC) plasticizers …

Thin films of fully renewable and environmentally benign electrolytes, cationic chitosan (CH)
and anionic phytic acid (PA), were deposited on cotton fabric via layer-by-layer (LbL) …

Cellulose has been studied over recent decades by researchers due to the excellent
properties of this material. Cellulose is one of the biomaterials that have the potential to be …

A halogen-free, formaldehyde-free, efficient, durable, Nsingle bondP flame retardant, the
ammonium salt of meglumine phosphoric ester acid (ASMPEA), was prepared. The Fourier …

Phosphorylated polymers are versatile materials for a broad range of applications from
flame-retardant coatings to bioactive scaffolds. Traditionally, they are synthesized in solution …

As a renewable, abundant, and eco-friendly bio-based compound, phytic acid (PA)
possesses high phosphorus content, which is a potential flame retardant for cellulosic fibers …

The effects of three nitrogen additives (urea, guanidine carbonate, and melamine
formaldehyde) on the flame retardant action of cotton cellulose treated with tributyl …

Cotton fabrics have been subjected to sol–gel processes performed in the presence of
phosphorus-based compounds, in order to prepare a novel flame retardant finishing system …