Recent developments in phosphorus based flame retardant coatings for textiles: Synthesis, applications and performance

Textiles contain a high content of carbon and hydrogen in their structure which provides the fuel for combustion and therefore are hazardous in case of a fire accident. A suitable flame retardant (FR) treatment for textiles is a common practice for their fire safe applications. Although plenty of we...

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Bibliographic Details
Published inProgress in organic coatings Vol. 171; p. 107027
Main Authors Özer, Merve S., Gaan, Sabyasachi
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2022
Subjects
Coating
Flame retardant
Phosphorus
Synergistic
Synthesis
Textile
EHC
rt
Textile
TG−FTIR
HRR
hr
py−GC−MS
FR
Synergistic
TG–IR
min
THF
Synthesis
DSC
DBU
FTIR
DMAP
EDX
XPS
DMF
SEM−EDX
THR
CC
UV
DCC
LOI
Flame retardant
ATR–FTIR
Phosphorus
AIBN
DOPO
MCC
pHRR
TGA
PA
NMR
TEOS
TSR
s
Coating
PAN
TCEP
PET
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Summary:Textiles contain a high content of carbon and hydrogen in their structure which provides the fuel for combustion and therefore are hazardous in case of a fire accident. A suitable flame retardant (FR) treatment for textiles is a common practice for their fire safe applications. Although plenty of well-known effective FR systems are already known for textile applications, there is a need to develop new effective environmental friendly FR agents and their treatments to meet existing environmental and technical requirements. Thus, development of phosphorus based new flame retardant compounds for application in textile treatments has been a major focus in academia and industry. This review summarizes the recent reports (last 5 years) on the preparation of phosphorus based FR compounds and their application on various natural and synthetic textiles via coating methodology. The reported literature typically addresses improvement of FR efficiency by synergistic interaction of phosphorus with other environmentally acceptable flame retardant elements such as nitrogen, silicon, sulfur and boron and is thus addressed in detail in this review. [Display omitted] •Phosphorus based flame retardants for textiles were reviewed.•Synthesis strategies of novel flame retardant compounds was illustrated.•The influence of synergistic heteroatoms such as nitrogen, silicon, sulfur and boron on flame retardancy was discussed.•Fire behavior and other properties of coated fabrics was summarized.
ISSN:0300-9440
DOI:10.1016/j.porgcoat.2022.107027