Polydiphenylamine/Zeolite Y composites and electrical conductivity responses toward halogenated hydrocarbons

Abstract: Composites of polydiphenylamine (D-PDPA) and zeolite Y with H + as the cation (Y_H + ) have been fabricated to be used as a sensing material towards non-halogenated and halogenated solvents (hexane, dichloromethane, 1, 2-dichloroethane, chloroform). These composites are toxic towards human and environment and are widely used as solvents in various industries. Polydiphenylamine, zeolite Y, and their composites are characterized by Fourier transform infrared spectroscopy, scanning electron microscopy, particle s… Show more

“…The N atoms in PDPA and PANI are located in imine groups (-NH-), which can be doped to improve electrical conductivity [149]. The biphenyl groups that connect the -NH-groups in PDPA differ from the monophenyl ring structure of PANI, which has good conjugated conductivity and stabilizes the positive ion center during the anion storage, improving cycle stability [150]. Therefore, PDPA can be used as a highly conductive electrode material by improving the content of active material and reducing the content of conductive additives.…”

Anion-hosting cathodes for current and late-stage dual-ion batteries

“…The N atoms in PDPA and PANI are located in imine groups (-NH-), which can be doped to improve electrical conductivity [149]. The biphenyl groups that connect the -NH-groups in PDPA differ from the monophenyl ring structure of PANI, which has good conjugated conductivity and stabilizes the positive ion center during the anion storage, improving cycle stability [150]. Therefore, PDPA can be used as a highly conductive electrode material by improving the content of active material and reducing the content of conductive additives.…”

Anion-hosting cathodes for current and late-stage dual-ion batteries

Tristimulus analysis for sensors set with either positive or negative sensitivities—determination of the relative concentration of an analyte in a binary mixture

Fabrication of a novel Zeolite-X/Reduced graphene oxide/Polypyrrole nanocomposite and its role in sensitive detection of CO