A microwave-powered continuous fluidic system for polymer nanocomposite manufacturing: a proof-of-concept study

Torabfam, Milad and Nejatpour, Mona and Fidan, Tuçe and Kurt, Hasan and Yüce, Meral and Bayazıt, Mustafa Kemal (2022) A microwave-powered continuous fluidic system for polymer nanocomposite manufacturing: a proof-of-concept study. Green Chemistry, 24 (7). pp. 2812-2824. ISSN 1463-9262 (Print) 1463-9270 (Online)

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Abstract

Continuous manufacturing of pure nanocrystals with a narrow size distribution in a polymer matrix is very challenging, although it is highly crucial to get their full potential for advanced applications. A long-lasting nanocomposite (NC) manufacturing challenge is, for the first time, overcome by a microwave-powered fluidic system (MWFS). The effect of microwave power (MWP), flow rate, and the concentration of the reagents are systematically studied. The nylon-6 NC bearing evenly distributed silver nanoparticles (AgNPs) with a mean size of ∼2.59 ± 0.639 nm is manufactured continuously in ∼2 min at ∼50-55 °C using a green solvent, formic acid. The AgNP size becomes smaller when increasing the polymer concentration gradually. Small NPs with a narrow size distribution are produced at high MWP (40 W), but large ones with a broad size distribution at low MWP (10 W). The nylon-6 crystallinity is NP size-dependent, and the γ-phase (pseudo-hexagonal crystal) is dominant in the presence of small NPs as against the large counterparts. Given the small-sized AgNPs in the MWF-manufactured NCs, the antibacterial activity tests with Escherichia coli, Staphylococcus aureus, and Pseudomonas aeruginosa show superior activity compared to that of the large AgNP-bearing (∼50 nm) NCs produced in a conventional heating fluidic system. The proposed MWFS can manufacture other added-value NCs continuously.
Item Type: Article
Divisions: Faculty of Engineering and Natural Sciences
Sabancı University Nanotechnology Research and Application Center
Depositing User: Milad Torabfam
Date Deposited: 22 Aug 2022 22:46
Last Modified: 22 Aug 2022 22:46
URI: https://research.sabanciuniv.edu/id/eprint/44113

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