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W2014394854 endingPage "8411" @default.
W2014394854 startingPage "8401" @default.
W2014394854 abstract "This work describes properties of thermosensitive submicrometer-sized particles having the same chemical composition but different morphologies. These particles have been prepared with an aerosol technique using dimethylformamide solutions of linear polystyrene-block-poly(N-isopropylacrylamide)-block-polystyrene, PS-b-PNIPAM-b-PS. The particles were characterized by cryo-electron microscopy, microcalorimetry, and light scattering. Block copolymers self-assembled within the particles forming onion-like, gyroid-like, and spherical morphologies having poly(N-isopropylacrylamide) matrix and physically cross-linking polystyrene domains. The particles were dispersed in aqueous media, and their behavior in water was studied both below and above the lower critical solution temperature of poly(N-isopropylacrylamide). We found out that the particles with spherical and gyroid-like morphologies swell considerably in water at 20 °C, whereas at 40 °C the particles resemble more of those studied without water treatment. Light scattering experiments showed that the particles gradually aggregate and precipitate with time at 40 °C. Microcalorimetric studies revealed for all three studied morphologies that PNIPAM undergoes a two-step transition due to the different hydration levels of PNIPAM inside and outside the particles. Thicknesses of the PS and PNIPAM layers within the onion-like particles were analyzed using the TEM micrographs by fitting a model of electron density to the integrated electron intensity data. The surface layer of the particles was found out to be PNIPAM, which was supported by light scattering and microcalorimetry. It was also found out from the TEM micrograph analysis that the width of the outmost PS layer is considerably thinner than the one in the dry state prior to immersion in water, and a degradation scheme is proposed to explain these results." @default.
W2014394854 created "2016-06-24" @default.
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W2014394854 date "2012-10-10" @default.
W2014394854 modified "2023-09-23" @default.
W2014394854 title "Thermally Sensitive Block Copolymer Particles Prepared via Aerosol Flow Reactor Method: Morphological Characterization and Behavior in Water" @default.
W2014394854 cites W1631146593 @default.
W2014394854 cites W1963672111 @default.
W2014394854 cites W1964573097 @default.
W2014394854 cites W1965701590 @default.
W2014394854 cites W1968627919 @default.
W2014394854 cites W1968818185 @default.
W2014394854 cites W1975678914 @default.
W2014394854 cites W1975942497 @default.
W2014394854 cites W1977072003 @default.
W2014394854 cites W1986469306 @default.
W2014394854 cites W1987620211 @default.
W2014394854 cites W1990759683 @default.
W2014394854 cites W1995100323 @default.
W2014394854 cites W1995350290 @default.
W2014394854 cites W1999899259 @default.
W2014394854 cites W2000230009 @default.
W2014394854 cites W2000234065 @default.
W2014394854 cites W2000389861 @default.
W2014394854 cites W2003034707 @default.
W2014394854 cites W2009924956 @default.
W2014394854 cites W2011263586 @default.
W2014394854 cites W2011742964 @default.
W2014394854 cites W2015240432 @default.
W2014394854 cites W2015491525 @default.
W2014394854 cites W2028076998 @default.
W2014394854 cites W2029101220 @default.
W2014394854 cites W2030508078 @default.
W2014394854 cites W2034501059 @default.
W2014394854 cites W2039453656 @default.
W2014394854 cites W2040784316 @default.
W2014394854 cites W2041720049 @default.
W2014394854 cites W2042518524 @default.
W2014394854 cites W2046178181 @default.
W2014394854 cites W2048518514 @default.
W2014394854 cites W2051038173 @default.
W2014394854 cites W2051814466 @default.
W2014394854 cites W2055144274 @default.
W2014394854 cites W2056319685 @default.
W2014394854 cites W2064110242 @default.
W2014394854 cites W2065515432 @default.
W2014394854 cites W2067037209 @default.
W2014394854 cites W2067965897 @default.
W2014394854 cites W2068192016 @default.
W2014394854 cites W2077463575 @default.
W2014394854 cites W2080195231 @default.
W2014394854 cites W2086409117 @default.
W2014394854 cites W2087375896 @default.
W2014394854 cites W2087577205 @default.
W2014394854 cites W2089215386 @default.
W2014394854 cites W2090762754 @default.
W2014394854 cites W2092623586 @default.
W2014394854 cites W2092700187 @default.
W2014394854 cites W2094976534 @default.
W2014394854 cites W2095806107 @default.
W2014394854 cites W2102516390 @default.
W2014394854 cites W2102563777 @default.
W2014394854 cites W2113321721 @default.
W2014394854 cites W2124850500 @default.
W2014394854 cites W2132629607 @default.
W2014394854 cites W2142161929 @default.
W2014394854 cites W2146988816 @default.
W2014394854 cites W2163920557 @default.
W2014394854 cites W2166661335 @default.
W2014394854 cites W2316057658 @default.
W2014394854 cites W4236610746 @default.
W2014394854 doi "https://doi.org/10.1021/ma301687b" @default.
W2014394854 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/3494880" @default.
W2014394854 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23150721" @default.
W2014394854 hasPublicationYear "2012" @default.
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