2017 journal article

Role of Polymerized Micelles on the Calcium Carbonate Mineralization of Nanofibers

Industrial & Engineering Chemistry Research, 56(29), 8241–8250.

By: Y. Park  n, P. Rawat n & E. Ford n

co-author countries: United States of America πŸ‡ΊπŸ‡Έ
Source: Crossref
Added: February 24, 2020

Calcium carbonate (CaCO3) is a well-known chemical adsorbent. In this study, anthraquinone dye adsorption by CaCO3-mineralized nanofibers was evaluated with respect to the chemistry and structure of ionic particles that were seeded into the fibers. Reacted and unreacted surfmers of polyoxyethylene-1-(alkyloxylmethyl) alkyl ether sulfuric ester ammonium salt (PAMS) and polyoxyethylene alkylphenyl ether ammonium sulfate (PAPS) were added to aqueous poly(vinyl alcohol) (PVA) solutions at concentrations above their critical micelle concentration prior to electrospinning. The roles of these polymerized micelles on CaCO3 mineralization (produced by dipping PVA nanofibers into alternating solutions of aqueous CaCl2 and NaCO3) were compared to the roles of calcium chloride (CaCl2) and unseeded PVA nanofibers. Seeding nanofibers with reacted PAMS and PAPS resulted in higher degrees of CaCO3 mineralization than those with unreacted surfmers. PAPS caused even greater degrees of CaCO3 mineralization than other seeds, including PAMS. Likewise, dye absorption was greatest among the vaterite CaCO3 containing surfaces that were along nanofibers seeded with PAPS. Complexation between the PAMS and PVA hydroxyl groups had reduced their ability to attract calcium ions to the surfaces of nanofibers for mineralization, which also suppressed dye adsorption.