Steering polymer growth by molding nanochannels: 1,5-hexadiene polymerization in high silica mordenite

Abstract: Zeolites are known as scaffolds for the assembly of molecules via non-covalent interactions, yielding organized supramolecular materials. Yet their potential in driving the growth of low-dimensional systems requiring covalent bond formation is still uncharted. We incorporated 1,5-hexadiene in the channels of a high-silica mordenite and analyzed the material by infrared spectroscopy, X-Ray powder diffraction, thermogravimetric and modeling techniques. Thanks to the few zeolite acid sites, 1,5-hexadiene experien… Show more

“…The mordenite framework presents a 1D channel system with two parallel channels running along the c axis: a large 12-membered-ring channel (12 MR, maximum diameter of a sphere that can diffuse along it: 6.45 Å), and a strongly elliptical 8 MR channel. HS-MOR was thoroughly investigated by our group and was demonstrated to be a suitable host for organic molecules under different conditions [30][31][32][33]. We have previously shown that the HS-MOR sample is strongly defective as a consequence of the dealumination process and shows some degree of acidity [33].…”

Boosting sunscreen stability: New hybrid materials from UV filters encapsulation

“…The mordenite framework presents a 1D channel system with two parallel channels running along the c axis: a large 12-membered-ring channel (12 MR, maximum diameter of a sphere that can diffuse along it: 6.45 Å), and a strongly elliptical 8 MR channel. HS-MOR was thoroughly investigated by our group and was demonstrated to be a suitable host for organic molecules under different conditions [30][31][32][33]. We have previously shown that the HS-MOR sample is strongly defective as a consequence of the dealumination process and shows some degree of acidity [33].…”

Boosting sunscreen stability: New hybrid materials from UV filters encapsulation

“…Recently, a method to improve the stability of UV filters in sunscreen formulation involving the molecules encapsulation in a zeolitic matrix has been proposed by our group . Zeolites are microporous materials showing different systems of channels and cages that have been used for the encapsulation of several organic molecules − and, very recently, for the encapsulation and shielding of UVfs . Our recent research showed that the encapsulation of avobenzone (butylmethoxydibenzoylmethane, C 20 H 22 O 3 , AVO) and octinoxate (octyl methoxycinnamate, C 18 H 26 O 3 , OMC), which are two of the most used organic UVfs, in cationic zeolites (i.e., zeolite L and NaX-FAU) is highly efficient, resulting in an enhanced UV filtering capacity.…”

Unraveling the Molecular Structure of Zeolite–Octyl Methoxycinnamate Hybrid UV Filters: A Combined Spectroscopic and Computational Approach

“…cages, 1D, 2D and 3D network channels). The zeolite pores, thanks to their nanometric sizes, can host water molecules (Bryukhanov et al, 2017;Coudert et al, 2009;Saada et al, 2011;Bennett & Smith, 1968), many different types of cations (Arletti, Giacobbe et al, 2017;Confalonieri et al, 2018;Confalonieri, Ryzhikov et al, 2020;Frising & Leflaive, 2008;Isaac et al, 2020;Simoncic & Armbruster, 2004;Barrer & Meier, 1958;Bennett & Smith, 1968) and/or organic molecules [including CO 2 (Hong et al, 2014;Hudson et al, 2012;Lu et al, 2008;Confalonieri, Grand et al, 2020), ethanol (Zhang et al, 2012;Arletti, Fois et al, 2017;Confalonieri et al, 2019), various hydrocarbons (Fabbiani et al, 2021;Confalonieri, Fabbiani et al, 2020;Santoro et al, 2003Santoro et al, , 2016Scelta et al, 2014), dyes (Dejoie et al, 2014) and even amino acids (Boekfa et al, 2008;Krohn & Tsapatsis, 2005;Stu ¨ckenschneider et al, 2013)]. One of the most remarkable properties of zeolites is the high cationic exchange capacity, where cations in the pores can be easily exchanged (Pabalan & Bertetti, 2001;Dyer, 2007).…”

Ce-exchange capacity of zeolite L in different cationic forms: a structural investigation