Poly(vinylphosphonate)s as Macromolecular Flame Retardants for Polycarbonate

Abstract: A series of poly(dialkyl vinylphosphonate)s (PDAVPs) have recently been reported to be available via rare earth metal-mediated group transfer polymerization (REM-GTP). We extend the existing portfolio of polyvinylphosphonates (PVPs) by presenting poly(ditolyl vinylphosphonate) (PDTVP) as the first example of a poly(diaryl vinylphosphonate) (PDArVP). Thermogravimetric analyses revealed that, for PDTVP, in contrast to the selected PDAVPs, side group cleavage does not occur. Instead, thermal decomposition takes p… Show more

“…Since PE fabrics featuring polymeric α-amino phosphonate esters were expected to show unique thermal properties due to heteroatom integrations, the TG/DTA properties of PE-PAP were analyzed (Figure ) and are summarized in Table . As expected from previous investigations on PMV thermal properties, the residual amount of PE-PAPs at 800 °C (Wt 800 °C ) was higher than that of the starting PE-PMV, whereas all PE-PAPs showed fairly low decomposition initiation temperatures likely due to the P–O bonding cleavage . This increase in Wt 800 °C shows that the phosphorus and nitrogen atoms enhanced the thermal resistant abilities of the PE-PAPs.…”

Multicomponent-Reaction-Ready Biomass-Sourced Organic Hybrids Fabricated via the Surface Immobilization of Polymers with Lignin-Based Compounds

“…Since PE fabrics featuring polymeric α-amino phosphonate esters were expected to show unique thermal properties due to heteroatom integrations, the TG/DTA properties of PE-PAP were analyzed (Figure ) and are summarized in Table . As expected from previous investigations on PMV thermal properties, the residual amount of PE-PAPs at 800 °C (Wt 800 °C ) was higher than that of the starting PE-PMV, whereas all PE-PAPs showed fairly low decomposition initiation temperatures likely due to the P–O bonding cleavage . This increase in Wt 800 °C shows that the phosphorus and nitrogen atoms enhanced the thermal resistant abilities of the PE-PAPs.…”

Multicomponent-Reaction-Ready Biomass-Sourced Organic Hybrids Fabricated via the Surface Immobilization of Polymers with Lignin-Based Compounds

“…[14][15][16][17] Undoubtedly, intermingling with additive-type ame retardants is the most convenient and workable strategy to improve the ame retardancy of PC materials. 18,19 Based on this cognition, massive effective ame retardants have been developed and applied in ame retarding PC materials, including halogencontaining, 20 sulphonate-containing, 21,22 organosilicon-containing, 23 phosphorus-containing compounds, 24 inorganic additives, 25 and nanomaterials. 26,27 Recently, as a promising intermediate in developing novel halogen-free ame retardants, 9,10-dihydro-9-oxa-10-phosphaphenanthrene 10-oxide (DOPO) have been frequently used to synthesize effective and efficient phosphaphenanthrene-containing ame retardant additives for various polymer materials.…”

Gaseous-phase flame retardant behavior of a multi-phosphaphenanthrene compound in a polycarbonate composite

“…The thermogravimetry-differential thermal analysis (TG-DTA) profiles of the original ETFE film, ETFE- g -PSt-CHO, and the obtained films, further support the successful attachment of the α-amino phosphonate ester moieties, as depicted in Figure 5. As previously reported [14,32], polymeric α-amino phosphonate esters exhibit a specific initial decomposition behavior at approximately 200 °C, probably owing to the cleavage of phosphonate ester units [34]. As depicted in Figure 5, the obtained crown ether-tethered film showed the above-mentioned initial decomposition behavior at approximately 200 °C, and increased the remaining weight at 550 °C, as compared to the corresponding original ETFE and ETFE- g -PSt-CHO films.…”

Surface Engineering of Fluoropolymer Films via the Attachment of Crown Ether Derivatives Based on the Combination of Radiation-Induced Graft Polymerization and the Kabachnik–Fields Reaction