Zongyu Zhang scite author profile

Antibacterial soybean-oil-based cationic polyurethane (PU) coatings have been successfully prepared from five different amino polyols. The structure and hydroxyl functionality of these amino polyols affects the particle morphology, mechanical properties, thermal stability, and antibacterial properties of the resulting coatings. An increase in the hydroxyl functionality of the amino polyols increases the cross-link density, resulting in an increased glass transition temperature and improved mechanical properties. Both the cross-link density and the amount of ammonium cations incorporated into the PU backbone affect the thermal stability of PU films. PUs with the lowest ammonium cation content and highest cross-link density exhibit the best thermal stability. With some strain-specific exceptions, these PUs show good antibacterial properties toward a panel of bacterial pathogens comprised of Listeria monocytogenes NADC 2045, Salmonella typhimurium ATCC 13311 and Salmonella minnesota (S. minnesota) R613. S. minnesota R613 is a "deep rough" mutant lacking a full outer membrane (OM) layer, an important barrier structure in gram-negative bacteria. With wild-type strains, the PU coatings exhibit better antibacterial properties toward the gram-positive Listeria monocytogenes than the gram-negative S. minnesota. However, the coatings have excellent activity against S. minnesota R613, suggesting a protective role for an intact OM against the action of these PUs.

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Thermo‐Mechanical and Antibacterial Properties of Soybean Oil‐Based Cationic Polyurethane Coatings: Effects of Amine Ratio and Degree of Crosslinking

Garrison

Zhang

Kim

et al. 2014

Macro Materials & Eng

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Soybean‐oil‐based cationic polyurethane coatings with antibacterial properties have been prepared with a range of different molar ratios of hydroxyl groups from an amine diol. A second series of polyurethane coatings were prepared from soy polyols with different hydroxyl numbers. All of the cationic PU dispersions and films exhibit inhibitory activity against three foodborne pathogens: Salmonella enterica ssp. enterica ser. Typhimurium, Listeria monocytogenes, and Staphylococcus aureus. It is generally observed that increases in the ratio of ammonium cations improve the antibacterial performance. Reduction of the crosslink density by decreasing the hydroxyl number of the soy polyol also results in slightly improved antibacterial properties. Higher glass transition temperatures and improved mechanical properties are observed with corresponding increases in the molar ratios of the amine diol and the diisocyanate. These results show that the mechanical properties of these coatings can be tuned, while maintaining good antibacterial activity.

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Experimental Study on Median Temperature Sulfur Fixation Characteristics and Mechanism in Flue Gas of Alkaliferous Industry Waste

Zhao

Yue

et al. 2009

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Zongyu Zhang

Antibacterial Soybean‐Oil‐Based Cationic Polyurethane Coatings Prepared from Different Amino Polyols

Thermo‐Mechanical and Antibacterial Properties of Soybean Oil‐Based Cationic Polyurethane Coatings: Effects of Amine Ratio and Degree of Crosslinking

Experimental Study on Median Temperature Sulfur Fixation Characteristics and Mechanism in Flue Gas of Alkaliferous Industry Waste

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