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W4313493205 abstract "Presented in this work is the use of a molecular descriptor, termed the α parameter, to aid in the design of a series of novel, terpene-based, and sustainable polymers that were resistant to biofilm formation by the model bacterial pathogen Pseudomonas aeruginosa. To achieve this, the potential of a range of recently reported, terpene-derived monomers to deliver biofilm resistance when polymerized was both predicted and ranked by the application of the α parameter to key features in their molecular structures. These monomers were derived from commercially available terpenes (i.e., α-pinene, β-pinene, and carvone), and the prediction of the biofilm resistance properties of the resultant novel (meth)acrylate polymers was confirmed using a combination of high-throughput polymerization screening (in a microarray format) and in vitro testing. Furthermore, monomers, which both exhibited the highest predicted biofilm anti-biofilm behavior and required less than two synthetic stages to be generated, were scaled-up and successfully printed using an inkjet valve-based 3D printer. Also, these materials were used to produce polymeric surfactants that were successfully used in microfluidic processing to create microparticles that possessed bio-instructive surfaces. As part of the up-scaling process, a novel rearrangement was observed in a proposed single-step synthesis of α-terpinyl methacrylate via methacryloxylation, which resulted in isolation of an isobornyl-bornyl methacrylate monomer mixture, and the resultant copolymer was also shown to be bacterial attachment-resistant. As there has been great interest in the current literature upon the adoption of these novel terpene-based polymers as green replacements for petrochemical-derived plastics, these observations have significant potential to produce new bio-resistant coatings, packaging materials, fibers, medical devices, etc." @default.
W4313493205 created "2023-01-06" @default.
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W4313493205 date "2023-01-04" @default.
W4313493205 modified "2023-10-15" @default.
W4313493205 title "Predictive Molecular Design and Structure–Property Validation of Novel Terpene-Based, Sustainably Sourced Bacterial Biofilm-Resistant Materials" @default.
W4313493205 cites W1508373236 @default.
W4313493205 cites W1534054236 @default.
W4313493205 cites W1864688359 @default.
W4313493205 cites W1966480046 @default.
W4313493205 cites W1988919020 @default.
W4313493205 cites W1989662589 @default.
W4313493205 cites W2002093977 @default.
W4313493205 cites W2027375167 @default.
W4313493205 cites W2032801709 @default.
W4313493205 cites W2067319534 @default.
W4313493205 cites W2081252077 @default.
W4313493205 cites W2087865186 @default.
W4313493205 cites W2102247415 @default.
W4313493205 cites W2109205748 @default.
W4313493205 cites W2115682365 @default.
W4313493205 cites W2115933619 @default.
W4313493205 cites W2125882717 @default.
W4313493205 cites W2135579818 @default.
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W4313493205 cites W2162335168 @default.
W4313493205 cites W2166220683 @default.
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W4313493205 cites W2204394725 @default.
W4313493205 cites W2207760002 @default.
W4313493205 cites W2276224095 @default.
W4313493205 cites W2295007419 @default.
W4313493205 cites W2316207167 @default.
W4313493205 cites W2320760520 @default.
W4313493205 cites W2321752471 @default.
W4313493205 cites W2437377606 @default.
W4313493205 cites W2480010979 @default.
W4313493205 cites W2480521809 @default.
W4313493205 cites W2483057761 @default.
W4313493205 cites W2511505360 @default.
W4313493205 cites W2530322393 @default.
W4313493205 cites W2588657365 @default.
W4313493205 cites W2738627553 @default.
W4313493205 cites W2768122621 @default.
W4313493205 cites W2790215573 @default.
W4313493205 cites W2811113296 @default.
W4313493205 cites W2899841051 @default.
W4313493205 cites W2901391417 @default.
W4313493205 cites W2917489700 @default.
W4313493205 cites W2930065610 @default.
W4313493205 cites W2940055204 @default.
W4313493205 cites W2947225250 @default.
W4313493205 cites W2949222898 @default.
W4313493205 cites W2954848995 @default.
W4313493205 cites W2961572212 @default.
W4313493205 cites W2962206735 @default.
W4313493205 cites W2978740481 @default.
W4313493205 cites W2996534121 @default.
W4313493205 cites W3000137432 @default.
W4313493205 cites W3011093590 @default.
W4313493205 cites W3034132988 @default.
W4313493205 cites W3037650381 @default.
W4313493205 cites W3045554671 @default.
W4313493205 cites W3048054897 @default.
W4313493205 cites W3159760388 @default.
W4313493205 cites W3165018156 @default.
W4313493205 cites W3165676271 @default.
W4313493205 cites W3191380408 @default.
W4313493205 cites W3198222915 @default.
W4313493205 cites W4205366480 @default.
W4313493205 cites W4211108359 @default.
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W4313493205 doi "https://doi.org/10.1021/acs.biomac.2c00721" @default.
W4313493205 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36599074" @default.
W4313493205 hasPublicationYear "2023" @default.
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