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Synthesis, Characterization, and Investigation of the Antimicrobial Activity of Cetylpyridinium Tetrachlorozincate

Viktor Dubovoy, Shiri Nawrocki, Gaurav Verma, Łukasz Wojtas, Primit Desai, Hassan Al‐Tameemi, Tatiana V. Brinzari, Michael Stranick, Dailin Chen, Shaopeng Xu, Shengqian Ma, Jeffrey M. Boyd, Tewodros Asefa, Long Pan

2020ACS Omega20 citationsDOIOpen Access PDF

Abstract

Cetylpyridinium tetrachlorozincate (referred to herein as (CP)2ZnCl4) was synthesized and its solid-state structure was elucidated via single-crystal X-ray diffraction (SC-XRD), revealing a stoichiometry of C42H76Cl4N2Zn with two cetylpyridinium (CP) cations per [ZnCl4]2– tetrahedra. Crystal structures at 100 and 298 K exhibited a zig-zag pattern with alternating alkyl chains and zinc units. The material showed potential for application as a broad-spectrum antimicrobial agent, to reduce volatile sulfur compounds (VSCs) generated by bacteria, and in the fabrication of advanced functional materials. Minimum inhibitory concentration (MIC) of (CP)2ZnCl4 was 60, 6, and 6 μg mL–1 for Salmonella enterica, Staphylococcus aureus, and Streptococcus mutans, respectively. The MIC values of (CP)2ZnCl4 were comparable to that of pure cetylpyridinium chloride (CPC), despite the fact that approximately 16% of the bactericidal CPC is replaced with bacteriostatic ZnCl2 in the structure. A modified layer-by-layer deposition technique was implemented to synthesize mesoporous silica (i.e., SBA-15) loaded with approximately 9.0 wt % CPC and 8.9 wt % Zn.

Topics & Concepts

AntimicrobialChemistryCharacterization (materials science)Cetylpyridinium chlorideOrganic chemistryNanotechnologyBiochemistryMaterials sciencePulmonary surfactantChemical Synthesis and ReactionsVanadium and Halogenation ChemistrySynthesis and biological activity
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