Kinetics of the Thermal Decomposition of 2,4,6-Triazido-3,5-Difluoropyridine

“…The authors then studied the thermal decomposition of 15 using DSC. The degradation products were also characterized using IR spectroscopy [ 66 ]. Comparing the IR spectra of the degradation products of 15 with previously studied compounds (2,4,6-triazidopyridne, 2,4,6-triazidopyrimidine, and cyanuric triazide), the authors determined that because 15 lacks hydrogen atoms, its degradation mechanism favors the formation of a network of planar polyconjugated carbon–nitrogen porphyrin-like structures as a result of a complex chain polymerization ( Scheme 15 ) [ 66 ].…”

“…The degradation products were also characterized using IR spectroscopy [66]. Comparing the IR spectra of the degradation products of 15 with previously studied compounds (2,4,6-triazidopyridne, 2,4,6-triazidopyrimidine, and cyanuric triazide), the authors determined that because 15 lacks hydrogen atoms, its degradation mechanism favors the formation of a network of planar polyconjugated carbon-nitrogen porphyrin-like structures as a result of a complex chain polymerization (Scheme 15) [66]. Additionally, in 2018, Yu and co-workers utilized PFPy to prepare porous β-cyclodextrin (β-CD) polymers for use in the removal of heavy metals and organic pollutants from water [67].…”

Perfluoropyridine: Discovery, Chemistry, and Applications in Polymers and Material Science

“…The authors then studied the thermal decomposition of 15 using DSC. The degradation products were also characterized using IR spectroscopy [ 66 ]. Comparing the IR spectra of the degradation products of 15 with previously studied compounds (2,4,6-triazidopyridne, 2,4,6-triazidopyrimidine, and cyanuric triazide), the authors determined that because 15 lacks hydrogen atoms, its degradation mechanism favors the formation of a network of planar polyconjugated carbon–nitrogen porphyrin-like structures as a result of a complex chain polymerization ( Scheme 15 ) [ 66 ].…”

“…The degradation products were also characterized using IR spectroscopy [66]. Comparing the IR spectra of the degradation products of 15 with previously studied compounds (2,4,6-triazidopyridne, 2,4,6-triazidopyrimidine, and cyanuric triazide), the authors determined that because 15 lacks hydrogen atoms, its degradation mechanism favors the formation of a network of planar polyconjugated carbon-nitrogen porphyrin-like structures as a result of a complex chain polymerization (Scheme 15) [66]. Additionally, in 2018, Yu and co-workers utilized PFPy to prepare porous β-cyclodextrin (β-CD) polymers for use in the removal of heavy metals and organic pollutants from water [67].…”

Perfluoropyridine: Discovery, Chemistry, and Applications in Polymers and Material Science

Heterocyclic azides: advances in their chemistry

Method of Preparation of Composite Materials Filled with Copper and Copper Sulfide Nanoparticles