Adsorption of gaseous aromatic compounds by linear quaternary ammonium-modified γ-zirconium phosphate

In this work, the intercalation of alkyl trimethylammonium ion (CnN+) and dialkyl dimethylammonium ion (2C(n)N(+)) were attempted for alpha-zirconium phosphate (alpha-ZrP) and gamma-ZrP. And then a pure intercalation compounds were obtained only for gamma-ZrP. It was expected that the intercalation of linear quaternary ammonium ion would produce not only a hydrophobic environment in the interlayer space but also form an appropriate void for the adsorption of hydrophobic air pollutants. The basal spacing of 2C(n)N(+)-intercalated gamma-ZrP was greater than that of CnN(+)-intercalated gamma-ZrP because CnN+ was arranged in a mono-molecular structure in the interlayer space contrary to the bi-molecular structure of 2C(n)N(+). Furthermore, the alkyl chain in the interlayer space of.ZrP was in a gauche form for CnN(+), for a smaller carbon number (n), and changed to a trans structure for a larger n. gamma-ZrP with a modified interlayer space could adsorb gaseous aromatic hydrocarbons contrary to the nonmodified.-ZrP. Maximum adsorption was attained for C18N+-intercalated.-ZrP with a mono-molecular structure and trans structure alkyl chain, although the basal spacing and uptake of alkyl ammonium reached a maximum for 2C(18)N(+)-intercalated.-ZrP. Hence, not only the basal spacing and carbon number but also the void space in the interlayer region affected adsorption. It was interesting to note that the conformation of the long alkyl chain was reversibly changed through adsorption and desorption.