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W3197304839 startingPage "4459" @default.
W3197304839 abstract "The past decades have seen significant research effort in the field of polymers for a range of biomedical applications, driven by the promising prospect of these materials for realizing next generation therapeutics in the clinic. In this regard, it is widely accepted that polymer properties such as chemistry, charge, and block composition, as well as properties of their self-assemblies including size, shape, surface chemistry, and biodegradation, all influence and direct their interactions with cells and biological membranes. In particular, polymer hydrophobicity is a property of interest, with growing evidence demonstrating the significant impact that hydrophobic interactions with lipid membranes and proteins can have on biomaterial application efficacy within the body. However, to date, this phenomenon has been relatively underexplored, and therefore there exists no clear universal understanding to direct polymer design. In this Perspective, we highlight important contributions to this field, focusing on seminal studies which investigate experimentally and theoretically how incorporation of hydrophobic moieties within polymer systems can influence their ultimate properties when used in biomedical applications. In this way, we aim to signify future directions in the design of highly performing polymers for biomedicine, making a case for the importance of standardized computational modeling to achieve widely applicable conclusions and facilitate future translational efforts." @default.
W3197304839 created "2021-09-13" @default.
W3197304839 creator A5034302686 @default.
W3197304839 creator A5050816150 @default.
W3197304839 date "2021-09-08" @default.
W3197304839 modified "2023-10-14" @default.
W3197304839 title "Polymers for Biomedical Applications: The Importance of Hydrophobicity in Directing Biological Interactions and Application Efficacy" @default.
W3197304839 cites W1970684981 @default.
W3197304839 cites W1971374993 @default.
W3197304839 cites W1973897761 @default.
W3197304839 cites W1980604115 @default.
W3197304839 cites W1986286007 @default.
W3197304839 cites W1990796256 @default.
W3197304839 cites W1991830829 @default.
W3197304839 cites W1995033884 @default.
W3197304839 cites W1995418081 @default.
W3197304839 cites W1997265487 @default.
W3197304839 cites W2008502035 @default.
W3197304839 cites W2008701932 @default.
W3197304839 cites W2010100886 @default.
W3197304839 cites W2012867962 @default.
W3197304839 cites W2023792139 @default.
W3197304839 cites W2024334224 @default.
W3197304839 cites W2025245242 @default.
W3197304839 cites W2027234900 @default.
W3197304839 cites W2030597389 @default.
W3197304839 cites W2032688587 @default.
W3197304839 cites W2032760352 @default.
W3197304839 cites W2043665338 @default.
W3197304839 cites W2049276478 @default.
W3197304839 cites W2062528525 @default.
W3197304839 cites W2064235303 @default.
W3197304839 cites W2077359414 @default.
W3197304839 cites W2089155556 @default.
W3197304839 cites W2098362297 @default.
W3197304839 cites W2107428341 @default.
W3197304839 cites W2108615682 @default.
W3197304839 cites W2117630026 @default.
W3197304839 cites W2124776482 @default.
W3197304839 cites W2126957299 @default.
W3197304839 cites W2128392700 @default.
W3197304839 cites W2130191632 @default.
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W3197304839 cites W2157976579 @default.
W3197304839 cites W2158558808 @default.
W3197304839 cites W2292528848 @default.
W3197304839 cites W2319556041 @default.
W3197304839 cites W2319561180 @default.
W3197304839 cites W2321022278 @default.
W3197304839 cites W2329957751 @default.
W3197304839 cites W2330843668 @default.
W3197304839 cites W2395887891 @default.
W3197304839 cites W2461081616 @default.
W3197304839 cites W2477103182 @default.
W3197304839 cites W2519633838 @default.
W3197304839 cites W2528172993 @default.
W3197304839 cites W2558135173 @default.
W3197304839 cites W2596216381 @default.
W3197304839 cites W2599649240 @default.
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W3197304839 cites W2736433263 @default.
W3197304839 cites W2744738409 @default.
W3197304839 cites W2767499571 @default.
W3197304839 cites W2788244117 @default.
W3197304839 cites W2793939821 @default.
W3197304839 cites W2804323232 @default.
W3197304839 cites W2810420630 @default.
W3197304839 cites W2890792159 @default.
W3197304839 cites W2907749811 @default.
W3197304839 cites W2946684719 @default.
W3197304839 cites W2976224320 @default.
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W3197304839 doi "https://doi.org/10.1021/acs.biomac.1c00434" @default.
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